research project in science

Education During Coronavirus

A Smithsonian magazine special report

Science | June 15, 2020

Seventy-Five Scientific Research Projects You Can Contribute to Online

From astrophysicists to entomologists, many researchers need the help of citizen scientists to sift through immense data collections

Rachael Lallensack

Former Assistant Editor, Science and Innovation

If you find yourself tired of streaming services, reading the news or video-chatting with friends, maybe you should consider becoming a citizen scientist. Though it’s true that many field research projects are paused , hundreds of scientists need your help sifting through wildlife camera footage and images of galaxies far, far away, or reading through diaries and field notes from the past.

Plenty of these tools are free and easy enough for children to use. You can look around for projects yourself on Smithsonian Institution’s citizen science volunteer page , National Geographic ’s list of projects and CitizenScience.gov ’s catalog of options. Zooniverse is a platform for online-exclusive projects , and Scistarter allows you to restrict your search with parameters, including projects you can do “on a walk,” “at night” or “on a lunch break.”

To save you some time, Smithsonian magazine has compiled a collection of dozens of projects you can take part in from home.

American Wildlife

If being home has given you more time to look at wildlife in your own backyard, whether you live in the city or the country, consider expanding your view, by helping scientists identify creatures photographed by camera traps. Improved battery life, motion sensors, high-resolution and small lenses have made camera traps indispensable tools for conservation.These cameras capture thousands of images that provide researchers with more data about ecosystems than ever before.

Smithsonian Conservation Biology Institute’s eMammal platform , for example, asks users to identify animals for conservation projects around the country. Currently, eMammal is being used by the Woodland Park Zoo ’s Seattle Urban Carnivore Project, which studies how coyotes, foxes, raccoons, bobcats and other animals coexist with people, and the Washington Wolverine Project, an effort to monitor wolverines in the face of climate change. Identify urban wildlife for the Chicago Wildlife Watch , or contribute to wilderness projects documenting North American biodiversity with The Wilds' Wildlife Watch in Ohio , Cedar Creek: Eyes on the Wild in Minnesota , Michigan ZoomIN , Western Montana Wildlife and Snapshot Wisconsin .

"Spend your time at home virtually exploring the Minnesota backwoods,” writes the lead researcher of the Cedar Creek: Eyes on the Wild project. “Help us understand deer dynamics, possum populations, bear behavior, and keep your eyes peeled for elusive wolves!"

A baby elephant stands between the legs of an adult elephant.

If being cooped up at home has you daydreaming about traveling, Snapshot Safari has six active animal identification projects. Try eyeing lions, leopards, cheetahs, wild dogs, elephants, giraffes, baobab trees and over 400 bird species from camera trap photos taken in South African nature reserves, including De Hoop Nature Reserve and Madikwe Game Reserve .

With South Sudan DiversityCam , researchers are using camera traps to study biodiversity in the dense tropical forests of southwestern South Sudan. Part of the Serenegeti Lion Project, Snapshot Serengeti needs the help of citizen scientists to classify millions of camera trap images of species traveling with the wildebeest migration.

Classify all kinds of monkeys with Chimp&See . Count, identify and track giraffes in northern Kenya . Watering holes host all kinds of wildlife, but that makes the locales hotspots for parasite transmission; Parasite Safari needs volunteers to help figure out which animals come in contact with each other and during what time of year.

Mount Taranaki in New Zealand is a volcanic peak rich in native vegetation, but native wildlife, like the North Island brown kiwi, whio/blue duck and seabirds, are now rare—driven out by introduced predators like wild goats, weasels, stoats, possums and rats. Estimate predator species compared to native wildlife with Taranaki Mounga by spotting species on camera trap images.

The Zoological Society of London’s (ZSL) Instant Wild app has a dozen projects showcasing live images and videos of wildlife around the world. Look for bears, wolves and lynx in Croatia ; wildcats in Costa Rica’s Osa Peninsula ; otters in Hampshire, England ; and both black and white rhinos in the Lewa-Borana landscape in Kenya.

An image featuring marine life from Invader ID.

Under the Sea

Researchers use a variety of technologies to learn about marine life and inform conservation efforts. Take, for example, Beluga Bits , a research project focused on determining the sex, age and pod size of beluga whales visiting the Churchill River in northern Manitoba, Canada. With a bit of training, volunteers can learn how to differentiate between a calf, a subadult (grey) or an adult (white)—and even identify individuals using scars or unique pigmentation—in underwater videos and images. Beluga Bits uses a “ beluga boat ,” which travels around the Churchill River estuary with a camera underneath it, to capture the footage and collect GPS data about the whales’ locations.

Many of these online projects are visual, but Manatee Chat needs citizen scientists who can train their ear to decipher manatee vocalizations. Researchers are hoping to learn what calls the marine mammals make and when—with enough practice you might even be able to recognize the distinct calls of individual animals.

Several groups are using drone footage to monitor seal populations. Seals spend most of their time in the water, but come ashore to breed. One group, Seal Watch , is analyzing time-lapse photography and drone images of seals in the British territory of South Georgia in the South Atlantic. A team in Antarctica captured images of Weddell seals every ten minutes while the seals were on land in spring to have their pups. The Weddell Seal Count project aims to find out what threats—like fishing and climate change—the seals face by monitoring changes in their population size. Likewise, the Año Nuevo Island - Animal Count asks volunteers to count elephant seals, sea lions, cormorants and more species on a remote research island off the coast of California.

With Floating Forests , you’ll sift through 40 years of satellite images of the ocean surface identifying kelp forests, which are foundational for marine ecosystems, providing shelter for shrimp, fish and sea urchins. A project based in southwest England, Seagrass Explorer , is investigating the decline of seagrass beds. Researchers are using baited cameras to spot commercial fish in these habitats as well as looking out for algae to study the health of these threatened ecosystems. Search for large sponges, starfish and cold-water corals on the deep seafloor in Sweden’s first marine park with the Koster seafloor observatory project.

The Smithsonian Environmental Research Center needs your help spotting invasive species with Invader ID . Train your eye to spot groups of organisms, known as fouling communities, that live under docks and ship hulls, in an effort to clean up marine ecosystems.

If art history is more your speed, two Dutch art museums need volunteers to start “ fishing in the past ” by analyzing a collection of paintings dating from 1500 to 1700. Each painting features at least one fish, and an interdisciplinary research team of biologists and art historians wants you to identify the species of fish to make a clearer picture of the “role of ichthyology in the past.”

Pictured is a Zerene eurydice specimen, or California dogface butterfly, caught in 1951.

Interesting Insects

Notes from Nature is a digitization effort to make the vast resources in museums’ archives of plants and insects more accessible. Similarly, page through the University of California Berkeley’s butterfly collection on CalBug to help researchers classify these beautiful critters. The University of Michigan Museum of Zoology has already digitized about 300,000 records, but their collection exceeds 4 million bugs. You can hop in now and transcribe their grasshopper archives from the last century . Parasitic arthropods, like mosquitos and ticks, are known disease vectors; to better locate these critters, the Terrestrial Parasite Tracker project is working with 22 collections and institutions to digitize over 1.2 million specimens—and they’re 95 percent done . If you can tolerate mosquito buzzing for a prolonged period of time, the HumBug project needs volunteers to train its algorithm and develop real-time mosquito detection using acoustic monitoring devices. It’s for the greater good!

Pelicans coming in for landing on PELIcam.

For the Birders

Birdwatching is one of the most common forms of citizen science . Seeing birds in the wilderness is certainly awe-inspiring, but you can birdwatch from your backyard or while walking down the sidewalk in big cities, too. With Cornell University’s eBird app , you can contribute to bird science at any time, anywhere. (Just be sure to remain a safe distance from wildlife—and other humans, while we social distance ). If you have safe access to outdoor space—a backyard, perhaps—Cornell also has a NestWatch program for people to report observations of bird nests. Smithsonian’s Migratory Bird Center has a similar Neighborhood Nest Watch program as well.

Birdwatching is easy enough to do from any window, if you’re sheltering at home, but in case you lack a clear view, consider these online-only projects. Nest Quest currently has a robin database that needs volunteer transcribers to digitize their nest record cards.

You can also pitch in on a variety of efforts to categorize wildlife camera images of burrowing owls , pelicans , penguins (new data coming soon!), and sea birds . Watch nest cam footage of the northern bald ibis or greylag geese on NestCams to help researchers learn about breeding behavior.

Or record the coloration of gorgeous feathers across bird species for researchers at London’s Natural History Museum with Project Plumage .

A pressed Wister's coralroot below a letter and sketch of the flower found in Oct. 1937

Pretty Plants

If you’re out on a walk wondering what kind of plants are around you, consider downloading Leafsnap , an electronic field guide app developed by Columbia University, the University of Maryland and the Smithsonian Institution. The app has several functions. First, it can be used to identify plants with its visual recognition software. Secondly, scientists can learn about the “ the ebb and flow of flora ” from geotagged images taken by app users.

What is older than the dinosaurs, survived three mass extinctions and still has a living relative today? Ginko trees! Researchers at Smithsonian’s National Museum of Natural History are studying ginko trees and fossils to understand millions of years of plant evolution and climate change with the Fossil Atmospheres project . Using Zooniverse, volunteers will be trained to identify and count stomata, which are holes on a leaf’s surface where carbon dioxide passes through. By counting these holes, or quantifying the stomatal index, scientists can learn how the plants adapted to changing levels of carbon dioxide. These results will inform a field experiment conducted on living trees in which a scientist is adjusting the level of carbon dioxide for different groups.

Help digitize and categorize millions of botanical specimens from natural history museums, research institutions and herbaria across the country with the Notes from Nature Project . Did you know North America is home to a variety of beautiful orchid species? Lend botanists a handby typing handwritten labels on pressed specimens or recording their geographic and historic origins for the New York Botanical Garden’s archives. Likewise, the Southeastern U.S. Biodiversity project needs assistance labeling pressed poppies, sedums, valerians, violets and more. Groups in California , Arkansas , Florida , Texas and Oklahoma all invite citizen scientists to partake in similar tasks.

A group of Harvard computers and astronomers.

Historic Women in Astronomy

Become a transcriber for Project PHaEDRA and help researchers at the Harvard-Smithsonian Center for Astrophysics preserve the work of Harvard’s women “computers” who revolutionized astronomy in the 20th century. These women contributed more than 130 years of work documenting the night sky, cataloging stars, interpreting stellar spectra, counting galaxies, and measuring distances in space, according to the project description .

More than 2,500 notebooks need transcription on Project PhaEDRA - Star Notes . You could start with Annie Jump Cannon , for example. In 1901, Cannon designed a stellar classification system that astronomers still use today. Cecilia Payne discovered that stars are made primarily of hydrogen and helium and can be categorized by temperature. Two notebooks from Henrietta Swan Leavitt are currently in need of transcription. Leavitt, who was deaf, discovered the link between period and luminosity in Cepheid variables, or pulsating stars, which “led directly to the discovery that the Universe is expanding,” according to her bio on Star Notes .

Volunteers are also needed to transcribe some of these women computers’ notebooks that contain references to photographic glass plates . These plates were used to study space from the 1880s to the 1990s. For example, in 1890, Williamina Flemming discovered the Horsehead Nebula on one of these plates . With Star Notes, you can help bridge the gap between “modern scientific literature and 100 years of astronomical observations,” according to the project description . Star Notes also features the work of Cannon, Leavitt and Dorrit Hoffleit , who authored the fifth edition of the Bright Star Catalog, which features 9,110 of the brightest stars in the sky.

A microscopic image of white blood cells

Microscopic Musings

Electron microscopes have super-high resolution and magnification powers—and now, many can process images automatically, allowing teams to collect an immense amount of data. Francis Crick Institute’s Etch A Cell - Powerhouse Hunt project trains volunteers to spot and trace each cell’s mitochondria, a process called manual segmentation. Manual segmentation is a major bottleneck to completing biological research because using computer systems to complete the work is still fraught with errors and, without enough volunteers, doing this work takes a really long time.

For the Monkey Health Explorer project, researchers studying the social behavior of rhesus monkeys on the tiny island Cayo Santiago off the southeastern coast of Puerto Rico need volunteers to analyze the monkeys’ blood samples. Doing so will help the team understand which monkeys are sick and which are healthy, and how the animals’ health influences behavioral changes.

Using the Zooniverse’s app on a phone or tablet, you can become a “ Science Scribbler ” and assist researchers studying how Huntington disease may change a cell’s organelles. The team at the United Kingdom's national synchrotron , which is essentially a giant microscope that harnesses the power of electrons, has taken highly detailed X-ray images of the cells of Huntington’s patients and needs help identifying organelles, in an effort to see how the disease changes their structure.

Oxford University’s Comprehensive Resistance Prediction for Tuberculosis: an International Consortium—or CRyPTIC Project , for short, is seeking the aid of citizen scientists to study over 20,000 TB infection samples from around the world. CRyPTIC’s citizen science platform is called Bash the Bug . On the platform, volunteers will be trained to evaluate the effectiveness of antibiotics on a given sample. Each evaluation will be checked by a scientist for accuracy and then used to train a computer program, which may one day make this process much faster and less labor intensive.

12 images from the platform showcasing different galactic formations

Out of This World

If you’re interested in contributing to astronomy research from the comfort and safety of your sidewalk or backyard, check out Globe at Night . The project monitors light pollution by asking users to try spotting constellations in the night sky at designated times of the year . (For example, Northern Hemisphere dwellers should look for the Bootes and Hercules constellations from June 13 through June 22 and record the visibility in Globe at Night’s app or desktop report page .)

For the amateur astrophysicists out there, the opportunities to contribute to science are vast. NASA's Wide-field Infrared Survey Explorer (WISE) mission is asking for volunteers to search for new objects at the edges of our solar system with the Backyard Worlds: Planet 9 project .

Galaxy Zoo on Zooniverse and its mobile app has operated online citizen science projects for the past decade. According to the project description, there are roughly one hundred billion galaxies in the observable universe. Surprisingly, identifying different types of galaxies by their shape is rather easy. “If you're quick, you may even be the first person to see the galaxies you're asked to classify,” the team writes.

With Radio Galaxy Zoo: LOFAR , volunteers can help identify supermassive blackholes and star-forming galaxies. Galaxy Zoo: Clump Scout asks users to look for young, “clumpy” looking galaxies, which help astronomers understand galaxy evolution.

If current events on Earth have you looking to Mars, perhaps you’d be interested in checking out Planet Four and Planet Four: Terrains —both of which task users with searching and categorizing landscape formations on Mars’ southern hemisphere. You’ll scroll through images of the Martian surface looking for terrain types informally called “spiders,” “baby spiders,” “channel networks” and “swiss cheese.”

Gravitational waves are telltale ripples in spacetime, but they are notoriously difficult to measure. With Gravity Spy , citizen scientists sift through data from Laser Interferometer Gravitational-Wave Observatory, or LIGO , detectors. When lasers beamed down 2.5-mile-long “arms” at these facilities in Livingston, Louisiana and Hanford, Washington are interrupted, a gravitational wave is detected. But the detectors are sensitive to “glitches” that, in models, look similar to the astrophysical signals scientists are looking for. Gravity Spy teaches citizen scientists how to identify fakes so researchers can get a better view of the real deal. This work will, in turn, train computer algorithms to do the same.

Similarly, the project Supernova Hunters needs volunteers to clear out the “bogus detections of supernovae,” allowing researchers to track the progression of actual supernovae. In Hubble Space Telescope images, you can search for asteroid tails with Hubble Asteroid Hunter . And with Planet Hunters TESS , which teaches users to identify planetary formations, you just “might be the first person to discover a planet around a nearby star in the Milky Way,” according to the project description.

Help astronomers refine prediction models for solar storms, which kick up dust that impacts spacecraft orbiting the sun, with Solar Stormwatch II. Thanks to the first iteration of the project, astronomers were able to publish seven papers with their findings.

With Mapping Historic Skies , identify constellations on gorgeous celestial maps of the sky covering a span of 600 years from the Adler Planetarium collection in Chicago. Similarly, help fill in the gaps of historic astronomy with Astronomy Rewind , a project that aims to “make a holistic map of images of the sky.”

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Rachael Lallensack | READ MORE

Rachael Lallensack is the former assistant web editor for science and innovation at Smithsonian .

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25 Science Research Competitions for High Schoolers

What’s Covered:

Why Should You Enter a Science Research Competition?
How Do Science Research Competitions Affect My Admissions Chances?

Participating in a science research competition as a high schooler can not only allow you to explore one of your passions, but also make you a more competitive candidate during the college admissions process. There’s a wide variety of science research competitions designed for high schoolers, including the high-profile contests listed below.

Why Should You Enter a Science Research Competition?

Entering a science research competition demonstrates that you take initiative and that you care about academics beyond the grades in your courses, both of which are qualities that colleges appreciate in prospective students.

Participation in competitions is already a strong extracurricular activity that’s likely to make your application more memorable, and successes—like making the finals or winning—can open additional doors, to scholarships or even research programs with professors once you get to college.

If competition isn’t really your thing, another way to showcase your initiative and skills is to work on an independent research paper. There are a number of ways to do independent research, including working with a high school teacher, reaching out to local professors, or taking part in a structured research program.

For example, the Lumiere Research Scholar Program is one type of structured research program tailored for high school students. In the program, you work one-on-one with a researcher on an independent research project. The program is run by researchers from Harvard and helps create the structure for you to get started quickly doing your own research. Many of Lumiere’s alums have used their research in the structured program to then apply to research competitions like ISEF.

Whether you participate in a structured program first or dive right into a competition, engaging in research allows you to deepen your understanding of one of your interests, while simultaneously boosting your profile for college admissions.

25 Science Research Competitions for High Schoolers

1. american academy of neurology neuroscience research prize.

Grades: 9-12

Type: National

The American Academy of Neurology (AAN) Neuroscience Research Prize competition challenges students to investigate problems regarding the brain or nervous system. The competition is only open to individual students—group projects are ineligible. Teachers are encouraged to provide guidance and support; however, they should allow students to demonstrate their own creativity.

Winners receive a monetary prize and the chance to present their projects at the AAN Annual Meeting.

2. NCF-Envirothon

Type: State, National, and International

Envirothon is North America’s largest environmental education competition, with more than 25,000 students participating in the multi-level competition each year. Student teams are first challenged at state-level competitions, with the winners moving on to face top teams from across the globe at the annual international competition.

The international competition is a six-day event held in a different location each summer—for example, on an open range of the American West one year, and at a coastal community in eastern Canada the next. Participants have the chance to win thousands of dollars in scholarships.

3. Regeneron International Science and Engineering Fair (ISEF)

Type: Local, Regional, and International

The Regeneron ISEF is the world’s largest international pre-college STEM competition—high school students representing all 50 states and more than 70 countries, regions, and territories, take part. Students showcase independent research and compete across 22 categories for awards ranging from $500 to $75,000.

This is not a group-based competition—individual students enroll in local school science fairs before advancing to upper-level competitions in hopes of reaching the national stage.

4. National Science Bowl

Type: National

Hosted by the Department of Energy in Washington, D.C., the National Science Bowl is a highly publicized competition that tests students’ knowledge in all areas of science and mathematics, including biology, chemistry, earth science, physics, energy, and math. Students compete in teams of four (plus an alternate) and have a teacher who serves as an advisor.

The National Science Bowl is one of the largest science competitions in the country—roughly 344,000 students have participated in it throughout its 34-year history.

5. National Science Olympiad

Type: State and National

One of the nation’s premier STEM competitions, the National Science Olympiad is the pinnacle of achievement for the country’s top Science Olympiad teams. Teams compete annually for the opportunity to win prizes and scholarships, including a one-time $10,000 Science Olympiad Founders’ Scholarship. About 6,000 teams compete each year, beginning at the regional level in hopes of reaching the national competition.

6. Regeneron Science Talent Search (STS)

Established in 1942 and hosted by the Society for Science, the Regeneron Science Talent Search is considered the nation’s most prestigious high school science research competition. The competition tasks young scientists with presenting their original research before a panel of nationally recognized professional scientists.

Of the roughly 1,800 entrants, 300 Regeneron STS scholars are selected—they and their schools are awarded $2,000 each. From that pool of scholars, 40 finalists are then identified to receive an all-expenses-paid trip to Washington, D.C., where they compete for an additional $1.8 million in awards, with a top prize of $250,000.

7. Stockholm Junior Water Prize

Type: Regional, State, National, and International

In this competition, students from around the world seek to address the current and future water challenges facing the world. Competition for the Stockholm Junior Water Prize occurs on four levels: regional, state, national, and international.

Regional winners receive a certificate and a nomination to compete in the state competition.
State winners receive a medal and an all-expenses-paid trip to compete in the national competition.
National winners receive a trophy, a $10,000 scholarship, and an all-expenses-paid trip to the international competition in Stockholm, Sweden.
International winners receive a crystal trophy and a $15,000 scholarship, along with a $5,000 award for their school.

In order to participate, students begin to research and develop a practical project proposal either individually or with a group.

8. TOPSS Competition for High School Psychology Students

To participate in this competition, students must submit a video (up to 3 minutes long) that demonstrates an interest in and understanding of a topic in psychology that they think could benefit their local community and improve lives. Students must utilize at least one peer-reviewed research study on their topic, and must include a closing slide citing their source(s). Up to three winners are chosen to receive a $300 scholarship.

9. Junior Science and Humanities Symposium (JSHS) National Competition

Type: Regional and National

The Junior Science and Humanities Symposium National Competition is one of the country’s longest-running STEM competitions—participants submit and present scientific research papers, and compete for military-sponsored undergraduate scholarships.

The JSHS national competition is designed to emulate a professional symposium. Research projects are organized into categories such as Environmental Science, Engineering and Technology, and Medicine and Health. After competing regionally, about 250 students are chosen to attend an annual symposium to showcase their work.

10. MIT THINK Scholars Program

In the fall of each year, students who have thoroughly explored the background of a potential research project and are looking to get it off the ground can present their proposals to a group of undergraduate students at MIT . If selected, students will be able to carry out their project, while receiving up to $1,000 in funding. They’ll also be invited to a four-day, all-expenses paid trip to MIT’s campus.

Finalists participate in weekly mentorship meetings and will have the opportunity to present their findings to MIT students and faculty at the end of the program.

11. Conrad Challenge

Teams of two to five students are tasked with designing and detailing project proposals to tackle various problems in categories such as Aerospace & Aviation, Health & Nutrition, Cyber-Technology & Security, and Energy & Environment. In doing so, they will identify problems in the world and come up with feasible and innovative solutions, while working with judges and mentors along the way.

Finalists will be selected from the competing teams and invited to the Innovation Summit in Houston, where they will pitch their projects to judges and potentially receive numerous prizes and awards, ranging from scholarships to professional networking opportunities.

12. USA Biolympiad Competition

Type: National and International

Students will undergo multiple rounds of testing that will eventually pinpoint 20 finalists—out of nearly 10,000 students annually—for selection into a residential training program to represent the USA in the International Biology Olympiad. This is one of the most prestigious and difficult competitions for high school scientists–it is the ultimate test for students devoted to the future of biology.

13. Davidson Fellows Scholarship

While not exclusive to STEM, the Davidson Fellows program offers various major scholarships for students interested in careers in sciences—scholarship categories include Science, Technology, and Mathematics. The program requires students to submit significant work that is recognized as meaningful and has the potential to make a positive contribution to society.

Scholarships range from $10,000 to $50,000.

14. Destination Imagination

Type: Regional, State, National, International

Destination Imagination is another worldwide competition that covers a variety of subjects, but it specializes in science-based challenges. Students will form teams and choose from a list of different challenges to compete in, in categories such as Technical, Scientific, and Engineering.

Students will solve these challenges and present their solutions in regional competitions. Regional winners will move on to statewide competitions before being invited to the Global Finals, where students from 36 states, 7 Canadian provinces, and 24 countries compete for awards.

15. Breakthrough Junior Challenge

For students looking for a more creative, unconventional competition, the Breakthrough Junior Challenge tasks students with creating a short two-minute video in which they explain a complex scientific concept and demonstrate how it works in practice.

Winning applicants will need to demonstrate immense creativity and deep understanding of complex scientific concepts. Rest assured, the prize is worth the difficulty, with awards including a $250,000 college scholarship, a $100,000 grant to the winner’s school for the development of a science lab, and a $50,000 award to a teacher of the winner’s choosing.

16. Biotechnology Institute BioGENEius Challenge

Type: State and National

Students from across the country are invited to participate in the Biotechnology Institute’s BioGENEius Challenge, where they’re able to complete a project in the category of Healthcare, Sustainability, or Environment. Their project must be extensive, and produce concrete results, and they will then compete in either a local or a virtual “At-Large” competition, with other student competitors from around the world.

17. Genes in Space

Grades: 7-12

For students interested in the science of space and its overlap with our current understanding of the human genome, this competition combines the two worlds by tasking students with designing a DNA experiment that addresses challenges in space exploration and travel.

Finalists receive mentorship from Harvard and MIT scientists and present their proposals to win the grand prize. The Genes in Space winner will travel to the Kennedy Space Center to see their experiment launched into space, and actually conducted on the International Space Station.

18. Odyssey of the Mind

Type: Regional, State, and International

Students form teams to compete in a variety of STEM-based challenges during this global problem-solving competition, which culminates in the World Finals. Challenges change annually and can range from designing vehicles to building small structures that can support hundreds of pounds. These challenges are designed to encourage creativity in the performative and presentational elements of competition.

19. U.S. National Chemistry Olympiad

Type: Regional, National, International

Students interested in chemistry can participate in the USNCO, in which they’ll take rigorous exams to prove their skills in the field. Top test-takers will be selected to attend a prestigious Study Camp, where they’ll compete for the chance to represent the U.S. at the International Chemistry Olympiad. Interested students can contact their local coordinator, who can be found through the program’s website.

20. ArcGIS Online Competition

Type: Regional, State, and National

This competition tasks high schoolers with conducting a research project connected to their home state, and eventually presenting their data in an ArcGIS StoryMap. This is a multi-level competition–participants compete at the school, state, and national level as they pursue top honors.

21. AAPT High School Physics Photo Contest

Type: International

This unique international competition is presented by the American Association of Physics Teachers (AAPT) and challenges students to create visual illustrations of natural and contrived phenomena, along with a written analysis of what the images are demonstrating. More than 1,000 students take part in this competition annually.

22. DNA Day Essay Contest

This annual competition asks high schoolers from around the globe to examine, question, and reflect on important topics in genetics. The essay can be no longer than 750 words and the prompt changes yearly. First place takes home $1,000, second place $600, and third place $400.

23. The Biomimicry Institute: Youth Design Challenge

Through this science competition, students are introduced to biomimicry—an interdisciplinary approach to science and environmental literacy. Students work as teams with an adult coach to search for bio-inspired ideas to solve real-world problems in support of a healthier planet.

24. TEAMS (Tests of Engineering Aptitude, Mathematics, and Science)

During this aptly named competition, students must work in teams to apply their knowledge of math and science to real-world engineering challenges. The three-part, themed competition includes design/build, multiple choice, and essay components, and the theme changes annually.

Beyond the chance to win an award, participants build valuable, broadly applicable skills like teamwork, collaboration, communication, and critical thinking.

25. Eye on the Future Teen Video Contest

While not a research competition per se, aspiring scientists will want to look into this science-related competition. Participants are tasked with creating a video between 30 seconds and three minutes long, either on their own or in teams of up to three members. Students compete in three categories: science in your world, science in the field or lab, and science in the future.

Winners receive a $2,000 cash prize and a paid trip for them and a parent or guardian to visit the National Institute of Health in Bethesda, Maryland.

How Do Science Research Competitions Affect My Admissions Chances?

The influence your participation in science research competitions can have on your college admissions varies—considerations such as how well you performed and the prestige of the event factor into how admissions officers view the competition. That being said, the four tiers of extracurricular activities provide a good general guide for understanding how colleges view your activities outside the classroom.

The most esteemed and well-known science research competitions are organized into Tiers 1 and 2. Extracurricular activities in these categories are extremely rare, demonstrate exceptional achievement, and hold considerable sway with admissions officers. Tiers 3 and 4 are reserved for more modest accomplishments—like winning a regional (rather than a national) competition—and carry less weight at colleges than their higher-tiered counterparts.

Generally, participation in a science research competition will be considered at least a Tier 2 activity. As stated before, this varies depending on the competition and your performance. For example, being a finalist or winner in something like the Regeneron Science Talent Search or the International Biology Olympiad—prestigious national and international competitions—is very likely to be considered a Tier 1 achievement.

However, lower-tiered extracurriculars are still valuable, as they show colleges a more well-rounded picture of you as a student, and highlight your desire to pursue your interests outside of school.

Curious how your participation in science research competitions affects your odds of college admissions? Collegevine can help. Our free chancing calculator uses factors like grades, test scores, and extracurricular activities—like science research competitions— to calculate your chances of getting into hundreds of colleges across the country! You can even use the information provided to identify where you can improve your college profile and ultimately bolster your odds of getting into your dream school.

Disclaimer: This post includes content sponsored by Lumiere Education.

Our resources are available to everyone

We regularly share datasets, tools and services with the broader scientific community to be used, shared, and built on.

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How to Conduct Scientific Research

Last Updated: August 13, 2024 Approved

This article was co-authored by Michael Simpson, PhD . Dr. Michael Simpson (Mike) is a Registered Professional Biologist in British Columbia, Canada. He has over 20 years of experience in ecology research and professional practice in Britain and North America, with an emphasis on plants and biological diversity. Mike also specializes in science communication and providing education and technical support for ecology projects. Mike received a BSc with honors in Ecology and an MA in Society, Science, and Nature from The University of Lancaster in England as well as a Ph.D. from the University of Alberta. He has worked in British, North American, and South American ecosystems, and with First Nations communities, non-profits, government, academia, and industry. There are 16 references cited in this article, which can be found at the bottom of the page. wikiHow marks an article as reader-approved once it receives enough positive feedback. In this case, 90% of readers who voted found the article helpful, earning it our reader-approved status. This article has been viewed 153,853 times.

If you want to contribute knowledge to the scientific community by conducting a scientific research project, you need to know the basic steps. There are many steps to doing research beginning with identifying a problem to solve. Thoroughly researching a topic and identifying gaps in knowledge is the best place to start with research. From there, you can design experiments, perform them, gather data, and submit your articles for publication!

Planning a Research Project

Step 1 Choose a topic that interests you.

Choose a subject that excites you or that you find yourself drawn to.
Scientific research isn’t limited to just subjects like biology, chemistry, and physics. As long as you follow the scientific method to perform your study you are doing research.

Step 2 Identify a problem or research question.

Do a brief literature search to familiarize yourself with what information is already out there and what unanswered questions there are. [2] X Research source
Make sure you have the necessary resources available to you (funding and laboratory equipment) to work on the question.
Talk to professors or other researchers and have them help you identify a question that you could work on.
Many articles will state some of the unanswered questions and speculate on future directions or suggest experiments that will be necessary in the future. Use these as a springboard for your own ideas. [3] X Research source

Step 3 Perform a comprehensive literature search.

It is impossible to read every paper, but when performing research, you want to be an expert on the topic. You also don’t want to repeat experiments that have already been done.
The literature search will help you design the experiments and determine the proper experimental conditions to use.
Take detailed notes as you read through the literature. You will likely be writing a paper on this information after your study is complete and this information will be the basis of your introduction.

Using your new knowledge, make your research question or questions more specific.
An example of a hypothesis is, “The amount of sunlight a plant receives will affect its growth.”
Another example is, “Sugar increases hyperactivity in children.”

Who or what is the study population? Do you need ethical approvals to work with the necessary subjects?
How will each experiment contribute to the answer to the question you’re asking?
How is the data collected? How do you define success in a study?
What type of statistics will you use to analyze the data?
If an experiment will not produce data that you would include in a paper, is it necessary to the understanding of the problem? This is called negative data and can help you view your problem from a different perspective or be used as a reference to revise your experiment. [8] X Trustworthy Source PubMed Central Journal archive from the U.S. National Institutes of Health Go to source

Designing an Experiment

To use a power analysis, you need to have an estimate of the effect size, an estimation of the variability within the data (standard deviation), the level of significance (standard convention is p<0.05), and power (the rate of false negatives you are willing to accept, generally set at 80%). [9] X Trustworthy Source PubMed Central Journal archive from the U.S. National Institutes of Health Go to source
Running smaller pilot studies can help you gather the necessary information for a proper power analysis to calculate sample size.
If you don’t have the means to do a pilot study, use some rough estimations based on information you have gathered from the literature.

Step 2 Identify all of the necessary solutions and equipment.

You may need to be trained on the equipment and develop the proper expertise before you can start your experiments. Keep this in mind when planning a timeline.
If you don’t have access to the necessary equipment, you might consider working with collaborators who have the equipment and expertise. [10] X Research source

Step 3 State all experimental conditions.

Literature searches can help you identify time points, dosages, and treatment conditions relevant to your studies.

When a known response is expected, it’s considered a positive control. When no response is expected, it’s considered a negative control.
A proper experiment has only one variable and multiple controls to ensure that any changes seen in the results are due specifically to the variable that was changed.
To test different variables, you will need to perform multiple experiments.

Step 5 Define the experimental outcomes.

The outcomes must be measurable with consistency or they will not produce usable data.
All statistical analyses to be used for the study should be established before data collection.

Step 6 Write up the experimental protocol.

The more detailed you make the protocol, the easier it will be to follow and repeat the experiment later.

Conducting the Experiments

Use a weekly or monthly calendar to schedule experiments, including time for analysis and interpretation of results.
As you continue through experiments, some conditions may change or perhaps you will end up going in a different direction. This is normal, just be flexible with your schedule.

Do as much of the small stuff as possible the day before such as labeling tubes and making solutions.

The first time you do an experiment, it is extremely likely that you will make mistakes or things will go wrong. This is totally normal. Take notes and learn from your mistakes for the next experiment.
Record your results in your laboratory notebook.

If you were using a special kit from a company, contact them or seek out their troubleshooting information.
Make sure all of the reagents used were not past their use-by date.
Check to make sure all of your instruments were working properly that day.
Double check all of your calculations and make sure the proper amounts and solution concentrations were used.

Use all of the same reagents and instruments whenever possible to limit variability between experiments.

Analyzing and Publishing the Data

Take care to avoid copying and pasting rows or columns of data incorrectly.

Indicate significance where applicable on all of your figures and state the exact statistical values within the text of the manuscript.
Use programs such as Graphpad Prism, R, and SAS for the analysis.

Step 3 Make publication quality figures.

Organize panels so that similar data is grouped together.
Avoid using color within the figures as there are generally expensive fees associated with color figures. [18] X Research source

Determine the journal you want to submit for publication before writing so you can follow their style guide.

Step 5 Submit the manuscript for publication.

After the paper is reviewed by other knowledgeable professionals in the field, it will come back with comments that you will need to address.
If the paper does not get submitted for review, you will need to submit it to a different journal. This may require revisions to adhere to the new journals style requirements.

To address the comments, revise the manuscript and write a cover letter rebuttal stating how each comment was taken into account in the revised paper.

Once your manuscript is accepted, you will be sent proofs to review and then it will be ready for publication! [23] X Trustworthy Source Science Direct Online archive of peer-reviewed research on scientific, technical and medical topics Go to source

Expert Q&A

Keep up to date on all current research projects. Otherwise, you may find your research being done elsewhere. Thanks Helpful 0 Not Helpful 0

↑ Michael Simpson, PhD. Registered Professional Biologist. Expert Interview. 8 September 2021.
↑ https://library.royalroads.ca/infoquest-tutorials/how-start/identifying-your-research-question
↑ https://www.linkedin.com/pulse/20140912150946-275561203-6-very-useful-approaches-to-identify-research-gaps-and-generate-research-questions
↑ https://www.humankinetics.com/excerpts/excerpts/steps-of-the-research-process
↑ https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5088693/
↑ https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2876926/
↑ https://blogs.nature.com/soapboxscience/2013/06/13/research-2-0-2-how-research-is-conducted
↑ https://www.moresteam.com/toolbox/design-of-experiments.cfm#designguidelines
↑ https://www.longwood.edu/cleanva/images/sec6.designexperiment.pdf
↑ https://www.moresteam.com/toolbox/design-of-experiments.cfm
↑ https://iubmb.onlinelibrary.wiley.com/doi/pdf/10.1111/j.1539-3429.2001.tb00056.x
↑ https://www.stat.yale.edu/Courses/1997-98/101/expdes.htm
↑ https://archive.bio.ed.ac.uk/jdeacon/statistics/tress2.html
↑ https://www.scidev.net/global/publishing/practical-guide/how-do-i-write-a-scientific-paper-.html
↑ https://sciencing.com/steps-procedures-conducting-scientific-research-6900127.html
↑ https://www.sciencedirect.com/science/article/pii/S2351979714000838

About This Article

To conduct scientific research, start by identifying the problem that you want to solve, research the topic thoroughly, and create a hypothesis to base your experiments on. Next, write up a detailed protocol that includes every condition to be tested and all of the necessary calculations. Then, conduct your experiments multiple times and record the resulting data carefully. Finally, analyze the data and write a manuscript to describe your findings. For more tips on designing experiments, read on! Did this summary help you? Yes No

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Frequently asked questions

What is a research project.

A research project is an academic, scientific, or professional undertaking to answer a research question . Research projects can take many forms, such as qualitative or quantitative , descriptive , longitudinal , experimental , or correlational . What kind of research approach you choose will depend on your topic.

Frequently asked questions: Writing a research paper

The best way to remember the difference between a research plan and a research proposal is that they have fundamentally different audiences. A research plan helps you, the researcher, organize your thoughts. On the other hand, a dissertation proposal or research proposal aims to convince others (e.g., a supervisor, a funding body, or a dissertation committee) that your research topic is relevant and worthy of being conducted.

Formulating a main research question can be a difficult task. Overall, your question should contribute to solving the problem that you have defined in your problem statement .

However, it should also fulfill criteria in three main areas:

Researchability
Feasibility and specificity
Relevance and originality

Research questions anchor your whole project, so it’s important to spend some time refining them.

In general, they should be:

Focused and researchable
Answerable using credible sources
Complex and arguable
Feasible and specific
Relevant and original

All research questions should be:

Focused on a single problem or issue
Researchable using primary and/or secondary sources
Feasible to answer within the timeframe and practical constraints
Specific enough to answer thoroughly
Complex enough to develop the answer over the space of a paper or thesis
Relevant to your field of study and/or society more broadly

A research aim is a broad statement indicating the general purpose of your research project. It should appear in your introduction at the end of your problem statement , before your research objectives.

Research objectives are more specific than your research aim. They indicate the specific ways you’ll address the overarching aim.

Once you’ve decided on your research objectives , you need to explain them in your paper, at the end of your problem statement .

Keep your research objectives clear and concise, and use appropriate verbs to accurately convey the work that you will carry out for each one.

I will compare …

Your research objectives indicate how you’ll try to address your research problem and should be specific:

Research objectives describe what you intend your research project to accomplish.

They summarize the approach and purpose of the project and help to focus your research.

Your objectives should appear in the introduction of your research paper , at the end of your problem statement .

The main guidelines for formatting a paper in Chicago style are to:

Use a standard font like 12 pt Times New Roman
Use 1 inch margins or larger
Apply double line spacing
Indent every new paragraph ½ inch
Include a title page
Place page numbers in the top right or bottom center
Cite your sources with author-date citations or Chicago footnotes
Include a bibliography or reference list

To automatically generate accurate Chicago references, you can use Scribbr’s free Chicago reference generator .

The main guidelines for formatting a paper in MLA style are as follows:

Use an easily readable font like 12 pt Times New Roman
Set 1 inch page margins
Include a four-line MLA heading on the first page
Center the paper’s title
Use title case capitalization for headings
Cite your sources with MLA in-text citations
List all sources cited on a Works Cited page at the end

To format a paper in APA Style , follow these guidelines:

Use a standard font like 12 pt Times New Roman or 11 pt Arial
If submitting for publication, insert a running head on every page
Apply APA heading styles
Cite your sources with APA in-text citations
List all sources cited on a reference page at the end

No, it’s not appropriate to present new arguments or evidence in the conclusion . While you might be tempted to save a striking argument for last, research papers follow a more formal structure than this.

All your findings and arguments should be presented in the body of the text (more specifically in the results and discussion sections if you are following a scientific structure). The conclusion is meant to summarize and reflect on the evidence and arguments you have already presented, not introduce new ones.

The conclusion of a research paper has several key elements you should make sure to include:

A restatement of the research problem
A summary of your key arguments and/or findings
A short discussion of the implications of your research

Don’t feel that you have to write the introduction first. The introduction is often one of the last parts of the research paper you’ll write, along with the conclusion.

This is because it can be easier to introduce your paper once you’ve already written the body ; you may not have the clearest idea of your arguments until you’ve written them, and things can change during the writing process .

The way you present your research problem in your introduction varies depending on the nature of your research paper . A research paper that presents a sustained argument will usually encapsulate this argument in a thesis statement .

A research paper designed to present the results of empirical research tends to present a research question that it seeks to answer. It may also include a hypothesis —a prediction that will be confirmed or disproved by your research.

The introduction of a research paper includes several key elements:

A hook to catch the reader’s interest
Relevant background on the topic
Details of your research problem

and your problem statement

A thesis statement or research question
Sometimes an overview of the paper

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The Essential Guide to Doing Your Research Project

Student resources.

Examples of Student Research Projects

110+ Best Science Investigatory Project Topics: Dive into Science

Post author By admin
September 29, 2023

Explore a wide range of science investigatory project topics to engage in innovative research and make significant contributions to the field.

Get ready to dive headfirst into the thrilling world of Science Investigatory Project (SIP) topics! Imagine a journey where you become a scientist, an explorer of the unknown, and a solver of real-world puzzles.

This is what SIP offers – a chance to channel your inner curiosity and creativity into the fascinating realm of science.

From unlocking the secrets of life in biology to experimenting with the wonders of chemistry, from unraveling the mysteries of the universe in physics to addressing vital environmental issues – SIP topics are your keys to a world of exploration.

In this adventure, we’ll guide you through an array of captivating SIP ideas. These topics aren’t just assignments; they’re opportunities to uncover new knowledge, make a difference, and have a blast along the way.

So, gear up for an exciting journey, as we unveil the science topics that could spark your imagination and fuel your passion for discovery. Let’s begin!

Table of Contents

What is a Science Investigatory Project?

Imagine stepping into the shoes of a scientist – asking questions, running experiments, and discovering the secrets of the world around you. That’s exactly what a Science Investigatory Project, or SIP, is all about.

At its core, a SIP is a thrilling journey of scientific exploration. It’s a project that challenges you to pick a problem, make educated guesses (that’s your hypothesis), roll up your sleeves for experiments, collect data, and connect the dots to find answers.

Here’s how it works

Step 1: the mystery.

You start with a question – something that piques your curiosity. It could be anything from “Why do plants grow towards the light?” to “What makes the sky blue?” Your SIP is your ticket to unravel these mysteries.

Step 2: The Guess

Next comes your hypothesis – a fancy word for your best guess at the answer. It’s like saying, “I think this is what’s happening, and here’s why.”

Step 3: The Detective Work

Now, it’s time for the fun part – experimenting! You set up tests, tweak variables, and observe closely. Whether you’re mixing chemicals, observing insects, or measuring temperature, you’re the scientist in charge.

Step 4: Clues and Evidence

As you experiment, you collect clues in the form of data – numbers, measurements, observations. It’s like gathering puzzle pieces.

Step 5: The “Aha!” Moment

When you analyze your data, patterns start to emerge. You connect those puzzle pieces until you have a clear picture. Does your data support your guess (hypothesis), or do you need to rethink things?

Step 6: Sharing Your Discovery

Scientists don’t keep their findings to themselves. They share them with the world. Your SIP report or presentation is your chance to do just that. You explain what you did, what you found, and why it matters.

So, why do SIPs matter? They’re not just school projects. They’re your chance to think like a scientist, ask questions like a detective, and discover like an explorer. They’re where you become the expert, the innovator, the problem-solver.

From the mysteries of biology to the wonders of chemistry and the enigmas of physics, SIPs open doors to countless adventures in science. So, what question will you ask? What mystery will you solve? Your SIP journey awaits – embrace it, and you might just uncover something amazing.

Choosing the Right SIP Topic

Choosing the right Science Investigatory Project (SIP) topic is like selecting a path for your scientific adventure. It’s a critical decision, and here’s how to make it count:

Follow Your Passion

Your SIP topic should resonate with your interests. Pick something you’re genuinely curious about. When you’re passionate, the research becomes a thrilling quest, not a chore.

Real-World Relevance

Consider how your topic connects to the real world. Can your research shed light on a problem or offer solutions? SIPs are a chance to make a tangible impact.

Feasibility

Be realistic about the resources at your disposal. Choose a topic that you can explore within your time frame and access to equipment. Avoid overly ambitious projects that might overwhelm you.

Originality Matters

While it’s okay to explore well-trodden paths, strive for a unique angle. What can you add to the existing knowledge? Innovative ideas often lead to exciting discoveries.

Mentor Guidance

If you’re feeling uncertain, don’t hesitate to seek guidance from teachers or mentors. They can help you refine your ideas and offer valuable insights.

Remember, your SIP topic is the compass for your scientific journey. It should excite your curiosity, have real-world significance, and be feasible within your means. So, choose wisely, and let your scientific adventure begin!

Environmental Science

Analyzing the Effects of Urban Green Spaces on Air Quality
Investigating the Impact of Microplastics on Marine Life
Studying the Relationship Between Temperature and Ocean Acidification
Exploring the Effects of Deforestation on Local Ecosystems
Investigating the Factors Contributing to Soil Erosion in a Watershed
Analyzing the Impact of Noise Pollution on Wildlife Behavior
Studying the Relationship Between Temperature and Ice Melt Rates
Investigating the Effect of Urbanization on Local Bird Populations
Exploring the Impact of Air Pollution on Human Health in Urban Areas
Analyzing the Biodiversity of Insects in Urban vs. Rural Environments

Social Sciences

Analyzing the Impact of Social Media Use on Teenagers’ Mental Health
Investigating the Factors Influencing Online Shopping Behavior
Studying the Effects of Different Teaching Methods on Student Engagement
Analyzing the Impact of Parenting Styles on Children’s Academic Performance
Investigating the Relationship Between Music Preferences and Stress Levels
Exploring the Factors Contributing to Workplace Stress and Burnout
Studying the Effects of Socioeconomic Status on Access to Healthcare
Analyzing the Factors Influencing Voting Behavior in Local Elections
Investigating the Impact of Advertising on Consumer Purchasing Decisions
Exploring the Effects of Cultural Diversity on Team Performance in the Workplace

These SIP topics offer a wide range of research opportunities for students in biology, chemistry, physics, and environmental science. Students can choose topics that align with their interests and contribute to their understanding of the natural world.

Conducting Your SIP

So, you’ve picked an exciting Science Investigatory Project (SIP) topic and you’re all set to dive into the world of scientific exploration. But how do you go from a brilliant idea to conducting your own experiments? Let’s break it down into easy steps:

Step 1: Dive into Research

Before you start mixing chemicals or setting up experiments, it’s time for some detective work. Dive into research! What’s already out there about your topic? Books, articles, websites – explore them all. This background study gives you the superpower of knowledge before you even start.

Step 2: Hypothesize Away!

With all that newfound wisdom, formulate a hypothesis. Don your scientist’s hat and make an educated guess about what you think will happen during your experiments. It’s like making a bet with science itself!

Step 3: Time for Action

Now comes the fun part. Design your experiments. What materials do you need? What steps should you follow? Imagine you’re a mad scientist with a plan! Then, go ahead and conduct your experiments. Be precise, follow your plan, and observe like Sherlock.

Step 4: Collect That Data

During your experiments, be a data ninja. Record everything. Measurements, observations, weird surprises – they’re all clues! The more detailed your notes, the better.

Step 5: Decode Your Findings

Time to put on your detective’s hat again. What do your data and observations tell you? Look for patterns, anomalies, and secrets your experiments are revealing. This is where the real magic happens.

Step 6: The Big Reveal

Now, reveal the grand finale – your conclusions! Did your experiments support your hypothesis, or did they throw you a curveball? Discuss what your findings mean and why they matter. It’s like solving the mystery in a thrilling novel.

Step 7: Your SIP Report

Finally, put it all together in your SIP report. Think of it as your scientific storybook. Share your journey with the world. Start with the introduction, add in your methodology, sprinkle your results and discussions, and wrap it up with a conclusion that leaves your readers in awe.

Remember, this isn’t just about science; it’s about your adventure in discovering the unknown. Have fun, be curious, and let your inner scientist shine!

What is a good topic for an investigatory project?

A good topic for an investigatory project depends on your interests and the resources available to you. Here are some broad categories and potential topics to consider:

The Impact of Different Fertilizers on Plant Growth
Investigating the Effect of Air Pollution on Local Plant Life
Analyzing the Quality of Drinking Water from Various Sources
Studying the Growth of Microorganisms in Different Water Types
Creating Biodegradable Plastics from Natural Materials
Investigating the Chemical Composition of Household Cleaning Products
Analyzing the Effects of Different Cooking Oils on Food Nutrition
Testing the pH Levels of Various Household Substances
Studying the Behavior of Ants in Response to Different Food Types
Investigating the Impact of Light Exposure on Seed Germination
Analyzing the Effects of Different Music Types on Plant Growth
Designing and Testing a Simple Wind Turbine
Investigating the Relationship Between Temperature and Electrical Conductivity in Materials
Studying the Behavior of Different Types of Pendulums
Analyzing the Factors Affecting the Efficiency of Solar Panels
Analyzing the Impact of Social Media Use on Teenagers’ Sleep Patterns
Investigating the Factors Influencing Consumer Behavior in Online Shopping
Studying the Effects of Different Teaching Methods on Student Learning
Analyzing the Relationship Between Music Preferences and Mood

Computer Science and Technology

Developing a Smartphone App for Personal Productivity
Investigating the Factors Affecting Wi-Fi Signal Strength in Different Locations
Analyzing the Impact of Screen Time on Productivity and Well-being
Studying the Efficiency of Different Coding Languages in Software Development

When choosing a topic, consider your interests, available resources, and the potential impact of your project. It’s essential to select a topic that excites you and allows you to conduct meaningful research.

Additionally, check with your school or instructor for any specific guidelines or requirements for your investigatory project.

What should I do in a science investigatory project?

So, you’re all set to embark on a thrilling adventure known as a Science Investigatory Project (SIP). But where do you start, and what should you be doing? Here’s your guide to diving headfirst into the world of scientific exploration:

Choose a Topic That Sparks Your Interest

Begin by picking a topic that genuinely excites you. It should be something you’re curious about, like “Why do plants grow towards the light?” or “How does pollution affect local water quality?”

Unleash Your Inner Detective with Background Research

Dive into the world of books, articles, and online resources. Learn everything you can about your chosen topic. It’s like gathering clues to solve a mystery.

Craft Your Hypothesis – Your Educated Guess

Formulate a hypothesis. Think of it as your scientific prediction. What do you think will happen when you investigate your question? Make an educated guess and write it down.

Plan Your Scientific Experiments

Now, let’s get hands-on! Plan your experiments. What materials will you need? What steps will you follow? Imagine you’re a mad scientist with a plan to uncover the secrets of the universe!

Collect Data – Be a Data Ninja

During your experiments, be a data ninja! Record everything meticulously. Measurements, observations, quirky surprises – they’re all part of your data treasure trove.

Decode Your Findings – Be a Scientific Sleuth

Time to decode the clues! Analyze your data like a scientific sleuth. Look for patterns, unexpected twists, and, most importantly, what your experiments are trying to tell you.

Share Your Scientific Tale: The SIP Report

It’s time to tell your scientific tale. Create your SIP report – your storybook of science. Start with the introduction, add in your experiments, sprinkle with results, and wrap it up with a conclusion that leaves your readers in awe.

Share Your Discoveries with the World

If you can, share your SIP findings. Present your work to your classmates, at science fairs, or anywhere you can. Share your excitement about science with the world!

Remember, SIP isn’t just about following steps; it’s about your adventure in discovering the mysteries of the universe. So, stay curious, have fun, and let your inner scientist shine!

What are the best topics for investigatory project chemistry class 12?

Hey there, future chemists! It’s time to explore the fascinating world of Chemistry with some class 12 investigatory project ideas that will not only challenge your scientific skills but also pique your curiosity:

Water Wizardry

Dive into the world of H2O and analyze water samples from different sources – tap water, well water, and that bottled stuff. Let’s uncover the secrets of your hydration!

Biodiesel Bonanza

Ever wondered if you could turn cooking oil into fuel? Investigate the synthesis of biodiesel from everyday vegetable oils, and let’s see if we can power the future with French fries!

Vitamin C Showdown

Put on your lab coat and determine the vitamin C content in various fruit juices. Is your morning OJ really packed with vitamin C? Let’s find out!

Race Against Time – The Iodine Clock

Get ready to race time itself! Study the kinetics of the iodine clock reaction and see how factors like concentration and temperature affect this chemistry marvel.

Shampoo Chemistry

Let’s turn your shower into a science lab! Test the pH levels of different shampoos – are they gentle or are they acidic? Your hair deserves the best!

Heavy Metal Detectives

Investigate soils for heavy metals. Are there hidden dangers lurking beneath our feet? Let’s discover the truth and protect the environment.

Metal Makeover

Ever dreamed of turning ordinary objects into shimmering treasures? Electroplate items like coins or jewelry with various metals and unveil their magical transformations!

The Dye Chronicles

Explore the vibrant world of food dyes used in your favorite treats. What’s really behind those bright colors? Let’s uncover the secrets of our rainbow foods!

Solubility Sleuths

Unravel the mysteries of solubility! How does temperature impact the solubility of common salts? Let’s dissolve some science questions.

Perfume Alchemy

Dive into the world of fragrances! Analyze the chemical components in different perfumes and discover the magic behind your favorite scents.

Remember, the best project is one that not only challenges you but also stirs your scientific curiosity. Choose a topic that excites you, and let your chemistry adventure begin!

What are good science experiment ideas?

Light Dance with Plants: Imagine plants swaying to the rhythm of light! Explore how different types of light affect plant growth – from disco-like colorful LEDs to the soothing glow of natural sunlight.
Kitchen Warriors: Don your lab coat and investigate everyday kitchen items like garlic, honey, and vinegar as germ-fighting superheroes. Who knew your kitchen could be a battleground for bacteria?
Animal Extravaganza: Dive into the world of critters! Observe and report on the curious behaviors of your chosen animal buddies. It’s like being a wildlife detective in your own backyard.
Fizz, Pop, and Bang: Get ready for some explosive fun! Experiment with classic chemical reactions that sizzle and explode, like the volcanic eruption of baking soda and vinegar.
Titration Showdown: Become a master of precision with acid-base titration. Unlock the secrets of unknown solutions, like a chemistry detective solving mysteries.
Crystal Kingdom: Step into the magical world of crystals. Grow your own dazzling crystals and reveal how factors like temperature and concentration influence their growth.
Swingin’ Pendulums: Swing into action with pendulums! Investigate how factors like pendulum length and mass affect the way they sway. It’s like dancing with physics.
Machine Marvels: Enter the world of simple machines. Uncover the mechanical magic behind levers, pulleys, and inclined planes as you lift heavy objects with ease.
Electromagnet Madness: Get electrified! Build your own electromagnet and experiment with coils and currents to see how they shape magnetic fields.
Water Adventure: Dive into water quality testing. Collect samples from different sources and become a water detective, searching for clues about pollution and health.
Air Expedition: Take to the skies with your own air quality station. Discover what’s floating in the air around you, from tiny particles to invisible gases.
Climate Crusaders: Join the battle against climate change. Investigate how shifts in temperature and precipitation patterns impact your local ecosystem.

Earth Science

Rock Detectives: Grab your magnifying glass and investigate rocks and fossils in your area. It’s like traveling through time to uncover Earth’s ancient secrets.
Weather Watchers: Become a meteorologist with your own weather station. Predict the weather and marvel at how the atmosphere behaves around you.
Volcano Eruption Spectacle: Get ready for volcanic eruptions without the lava! Create a stunning volcano model and watch it come to life with your own eruptions.
Starry Nights: Explore the cosmos with a telescope and discover celestial wonders, from the rings of Saturn to the galaxies far, far away.
Moon Phases Odyssey: Join the lunar calendar club! Track the Moon’s different faces over weeks and become an expert on lunar phases.
Solar Eclipse Spectacle: Witness the sky’s ultimate blockbuster – a solar eclipse! Safely observe this cosmic dance with eclipse glasses and telescopes.

These science experiments are not just about learning; they’re about unleashing your inner scientist and having a blast along the way! So, pick your favorite, put on your lab coat, and let the science adventures begin!

In wrapping up our exploration of Science Investigatory Project (SIP) topics, it’s clear that we’ve uncovered a treasure trove of possibilities. These topics are more than just words on a page; they’re gateways to adventure, inquiry, and understanding.

We’ve ventured into diverse realms of science, from the secrets of plant life to the hidden chemistry of everyday items. We’ve danced with the laws of physics, delved into environmental enigmas, and probed the complexities of human behavior. These topics aren’t just ideas; they’re invitations to explore the wonders of our world.

So, as you consider your own SIP journey, let your curiosity be your compass. Pick a topic that truly intrigues you, one that keeps you awake at night with questions. Embrace the process – the experiments, the surprises, and the “Aha!” moments.

Remember, it’s not just about reaching a conclusion; it’s about the exhilarating path you take to get there. SIPs are your chance to be a scientist, an explorer, and a storyteller all at once. So, go ahead, choose your topic, embark on your adventure, and share your discoveries with the world. Science is waiting for your curiosity to light the way!

Frequently Asked Questions

1. how long does it typically take to complete a science investigatory project, the duration of an sip varies, but it generally spans a few months to a year, depending on the complexity of the topic and available resources., 2. can i work on an sip alone, or is it better to collaborate with classmates, you can choose to work on an sip individually or in a group. both approaches have their advantages, so it depends on your preference and the project’s requirements., 3. are there any age restrictions for participating in sips, sips are typically undertaken by students in middle school and high school, but there are no strict age restrictions. anyone with a passion for scientific inquiry can engage in an sip., 4. how can i find a mentor or advisor for my sip, you can seek guidance from science teachers, professors, or professionals in your chosen field. they can provide valuable insights and support throughout your sip journey., 5. where can i showcase my sip findings, you can present your sip findings at science fairs, school exhibitions, or even submit them to relevant scientific journals or conferences for broader recognition..

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How to Start a Research Project: A Step-by-Step Guide for Beginners

Young researcher with notebook and laptop, colorful charts.

Starting a research project can be a bit overwhelming, especially if it's your first time. But don't worry! This guide will walk you through each step, making the process easier and more manageable. By breaking down the project into smaller tasks, you'll find it much simpler to handle. Let's dive into how you can go from an idea to a well-organized research proposal.

Key Takeaways

Clearly define your research subject to set a strong foundation.
Engage stakeholders early to align expectations and gather input.
Craft a precise research statement to guide your study.
Establish specific research goals to stay focused.
Choose a suitable methodology to ensure reliable results.

Defining the Research Subject

Selecting a topic of interest.

The first step in starting your research project is to choose a topic that genuinely interests you. Selecting a topic that excites you will keep you motivated throughout the research process. Begin by brainstorming broad areas of interest and then narrow them down to a specific niche. Consider the practicalities, such as the availability of resources and the scope of your project. If you're struggling to find a topic, consult with your instructor or peers for guidance.

Narrowing Down the Focus

Once you have a general topic, it's essential to narrow it down to a more specific focus. This involves conducting an initial literature review to identify gaps, debates, and questions within your chosen field. By doing so, you can pinpoint a unique angle for your research. Remember, a well-defined focus will make your research more manageable and impactful.

Aligning with Assignment Instructions

It's crucial to ensure that your chosen topic aligns with the assignment instructions provided by your instructor. Review the guidelines carefully to understand the requirements and limitations. This alignment will not only help you meet academic expectations but also make your research more relevant and structured. If in doubt, seek clarification from your instructor to avoid any misunderstandings.

Engaging with Stakeholders

Identifying key stakeholders.

Before starting your research, it's crucial to identify the key stakeholders involved. These are the people who have a vested interest in your project. They can include supervisors, funding bodies, and even the target audience of your research. Understanding who your stakeholders are will help you align your research goals with their expectations.

Conducting Initial Meetings

Once you've identified your stakeholders, the next step is to conduct initial meetings . These meetings are essential for gathering input and setting expectations. During these meetings, discuss the scope of your research, the methodologies you plan to use, and any potential challenges. This is also a good time to ask for any resources or support you might need.

Gathering Input and Expectations

After the initial meetings, gather all the input and expectations from your stakeholders. This will help you refine your research plan and ensure that it meets everyone's needs. Create a summary document that outlines the key points discussed and any agreed-upon actions. This document will serve as a reference throughout your research project.

Crafting a Precise Research Statement

Formulating the main question.

Creating a strong research statement starts with formulating the main question . This question will guide your entire project. Make sure it is clear and specific. For example, if you're studying the impact of WhatsApp on communication, your main question could be, "How does WhatsApp influence daily communication habits?"

Ensuring Clarity and Conciseness

Your research statement should be both clear and concise. Avoid using complex words or jargon. Instead, focus on making your statement easy to understand. A clear and concise statement helps keep your research focused and on track.

Aligning with Research Goals

Finally, ensure that your research statement aligns with your overall research goals. This means that your statement should directly relate to what you aim to achieve with your study. For instance, if your goal is to understand user behavior on WhatsApp, your research statement should reflect this aim.

Establishing Research Goals

Setting clear research goals is a crucial step in any research project. These goals guide your study and help you stay focused on what you aim to achieve. Here’s how to establish effective research goals:

Identifying Key Areas of Exploration

Start by pinpointing the main areas you want to explore. These should be directly related to your research statement. Identifying these key areas will help you stay organized and ensure that your research is comprehensive.

Setting Specific Objectives

Once you have identified the key areas, the next step is to set specific objectives. These objectives should be clear, measurable, and achievable. Pinpointing the major focus of your research will help you stay on track and make your study more manageable.

Aligning Goals with Stakeholder Expectations

It's important to ensure that your research goals align with the expectations of your stakeholders. This alignment will help you gather the necessary support and resources for your project. Conducting initial meetings with stakeholders can provide valuable input and help you refine your goals.

Conducting a Comprehensive Literature Review

Gathering relevant sources.

Before diving into your research, it's crucial to gather all the relevant sources. Start by doing a preliminary search to see if there's enough information available. Use libraries, online databases, and academic journals to find books, articles, and papers related to your topic. This step ensures you have a solid foundation for your research .

Analyzing Existing Research

Once you have your sources, the next step is to analyze them. Skim through the materials to identify key points and different viewpoints. This will help you understand the current state of research in your field. Pay attention to how these sources relate to your research question.

Identifying Research Gaps

Finally, look for gaps in the existing research. These are areas that haven't been explored or questions that haven't been answered. Identifying these gaps can provide a direction for your own research and make your study more valuable. Conducting a comprehensive literature review is vital for putting your research in context and highlighting what your research will add to the field.

Choosing an Appropriate Methodology

Young researchers collaborating in a modern lab.

Deciding Between Qualitative and Quantitative Methods

When starting your research, you need to decide whether to use qualitative or quantitative methods . Qualitative methods involve first-hand observations like interviews, focus groups, and case studies. These methods are great for exploring complex issues in depth. On the other hand, quantitative methods deal with numbers and logic, focusing on statistics and numerical patterns. They are ideal for testing hypotheses and making generalizable conclusions. Sometimes, a mixed-method approach, combining both qualitative and quantitative methods, can be the best choice.

Selecting Data Collection Tools

Choosing the right tools for data collection is crucial. For qualitative research, you might use interviews, focus groups, or open-ended surveys. For quantitative research, tools like structured surveys, experiments, and statistical software are more appropriate. Make sure your tools align with your research questions and objectives.

Planning Data Analysis Techniques

Once you have collected your data, the next step is to analyze it. For qualitative data, look for patterns and themes. Coding and thematic analysis are common techniques. For quantitative data, use statistical methods to test your hypotheses. Software like SPSS or R can help you manage and analyze large datasets. Proper planning of your data analysis techniques ensures that your findings are reliable and valid.

Creating a Detailed Research Plan

Researcher planning project with books and charts

Creating a detailed research plan is essential for the success of your project. It helps you stay organized and ensures that you cover all necessary aspects of your research. Here are the key steps to follow:

Outlining the Methodology

Start by outlining the methodology you will use. This includes deciding on qualitative or quantitative methods, selecting tools for data collection, and determining how you will analyze the data. A clear methodology is essential for the credibility of your research.

Creating a Research Timeline

Next, create a timeline for your research activities. Break down your tasks into manageable steps and assign deadlines to each. This will help you stay on track and ensure that you complete your project on time. Use a table to organize your timeline:

Task	Deadline
Literature Review	Month 1
Data Collection	Month 2-3
Data Analysis	Month 4
Writing Draft	Month 5
Revisions	Month 6

Allocating Resources Effectively

Finally, allocate your resources effectively. This includes budgeting for any costs, such as software, travel, or materials, and ensuring you have access to necessary resources like libraries or labs. Proper resource allocation can make a significant difference in the quality and feasibility of your research.

Writing the Research Proposal

Structuring the proposal.

When structuring your research proposal, it's essential to include several key components. Start with a clear title that reflects the main focus of your study. Follow this with an abstract that provides a brief summary of your research objectives, methods, and expected outcomes. The introduction should set the context for your research, explaining the background and significance of your study. Make sure to include a literature review that highlights existing research and identifies gaps your study aims to fill. Finally, outline your research design, detailing the methods and procedures you will use to collect and analyze data.

Including a Literature Review

A comprehensive literature review is crucial for situating your research within the existing body of knowledge. Begin by gathering relevant sources from academic journals, books, and other credible publications. Summarize and synthesize these sources to show how they relate to your research question. Highlight any gaps or inconsistencies in the current literature that your study will address. This section not only demonstrates your understanding of the field but also justifies the need for your research.

Describing the Research Design

The research design section should provide a detailed plan of how you will conduct your study. Start by explaining whether you will use qualitative, quantitative, or mixed methods. Describe the data collection tools you will use, such as surveys, interviews, or experiments. Outline your sampling methods and criteria for selecting participants or data sources. Finally, detail your data analysis techniques, explaining how you will interpret the results to answer your research question. This section should be thorough enough to convince reviewers that your methodology is sound and feasible.

Implementing the Research Project

Collecting data.

Once your research plan is in place, the next step is to start collecting data. This involves gathering the information you need to answer your research questions . Make sure to use the data collection tools you selected during your planning phase. Accurate data collection is crucial for the success of your project.

Analyzing Results

After collecting your data, the next step is to analyze it. This means looking for patterns, trends, and insights that will help you answer your research questions. Use the data analysis techniques you planned earlier. Remember, the goal is to make sense of the data and draw meaningful conclusions.

Adjusting the Plan as Needed

As you collect and analyze data, you might find that some parts of your plan need to be adjusted. This is normal and part of the research process. Be flexible and ready to make changes to your methodology or data collection methods if necessary. Staying adaptable will help you overcome any challenges that arise.

Presenting Your Findings

Organizing the presentation.

When presenting your research findings, it's crucial to structure your presentation logically. Start with an introduction that outlines the purpose of your research and the main questions you aimed to answer. Follow this with a summary of your methodology, highlighting the key methods used for data collection and analysis. Ensure your findings are presented clearly and concisely , using tables and graphs where appropriate to illustrate your points.

Engaging the Audience

To keep your audience engaged, use a mix of visual aids and verbal explanations. Interactive elements like Q&A sessions or live demonstrations can also be effective. Make sure to explain the significance of your findings and how they contribute to the existing body of knowledge. This not only keeps the audience interested but also underscores the importance of your work.

Handling Questions and Feedback

Be prepared to handle questions and feedback from your audience. This is an opportunity to clarify any doubts and to demonstrate your deep understanding of the subject. Listen carefully to the questions, and take your time to provide thoughtful and well-reasoned answers. This will not only help in addressing any concerns but also in reinforcing the credibility of your research.

Sharing your research results is a crucial step in your academic journey. It can be tough, but you don't have to do it alone. Our Thesis Action Plan is here to guide you through every step. Ready to make your thesis writing stress-free? Visit our website now and claim your special offer!

In summary, starting a research project can seem overwhelming, but breaking it down into clear, manageable steps can make the process much more approachable. By carefully defining your research topic, engaging with stakeholders, crafting a precise research statement, and establishing clear goals and methodologies, you set a strong foundation for your project. Remember, a well-organized plan not only helps you manage your time and resources effectively but also enhances the credibility and impact of your research. As you embark on your research journey, keep these steps in mind to navigate the process smoothly and achieve your academic goals.

Frequently Asked Questions

What is a research project.

A research project is a detailed study on a specific topic. It involves gathering information, analyzing data, and presenting findings to answer a particular question or solve a problem.

How do I choose a good research topic?

Pick a topic that interests you and has plenty of resources available. Make sure it aligns with your assignment guidelines and is neither too broad nor too narrow.

Why is it important to define the research subject?

Defining the research subject helps you stay focused and organized. It ensures that you have a clear direction and don't get lost in too many ideas.

Who are stakeholders in a research project?

Stakeholders are people who have an interest in your research. They can include funders, academic supervisors, or anyone affected by your study.

What is a research statement?

A research statement is a clear and concise description of the main question or problem your research aims to address.

What are research goals?

Research goals are the specific objectives you aim to achieve with your study. They guide your research and help you stay focused on your main question.

How do I choose the right methodology for my research?

Choosing the right methodology involves deciding how you will collect and analyze data. Consider whether you need qualitative or quantitative data and choose tools and techniques that best suit your study.

What should be included in a research proposal?

A research proposal should include the research subject, a literature review, research questions, methodology, and a timeline. It outlines what you plan to study and how you will do it.

युवा शोधकर्ता नोटबुक और लैपटॉप के साथ, रंगीन चार्ट।

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23+ Science Investigatory Project Topics for Curious Minds

Science investigatory projects are a great way for students to explore various scientific concepts and principles in a fun and engaging way. These projects allow students to apply their knowledge of scientific methods, research skills, and creativity to solve real-world problems.

If you’re looking for science investigatory project topics, you’ve come to the right place. In this blog post, we’ll explore what science investigatory projects are, their significance, and the elements that make up a successful project. We’ll also provide a list of 23+ exciting science investigatory project topics that will surely ignite your curiosity and imagination. Also, we will discuss how you can find the right topic for your Science Investigatory Project.

What is the Science Investigatory Project?

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A Science Investigatory Project (SIP) is a research-based project that allows students to apply scientific methods to investigate a problem or question of interest. It is an opportunity for students to explore their curiosity and creativity while developing important skills such as critical thinking, problem-solving, and communication.

SIPs are typically done by students in high school or college, but they can also be done by younger students under the guidance of a teacher or mentor. These projects can cover a wide range of topics in various fields of science such as biology, chemistry, physics, environmental science, and more.

Significance of Science Investigatory Project

science investigatory project (SIP) is a research project that allows students to explore scientific topics of their choice through hands-on experimentation and analysis. SIPs are often conducted by students in high school or college, and they provide a unique opportunity to develop critical thinking and problem-solving skills while also exploring areas of interest. Here are some of the significant benefits of conducting a science investigatory project:

1. Develops research skills

SIPs help students develop research skills, including gathering and analyzing data, identifying relevant sources, and synthesizing information. These skills are essential for success in college and beyond.

2. Promotes scientific inquiry

SIPs encourage students to ask questions, generate hypotheses, and design experiments to test their ideas. This process promotes scientific inquiry and helps students understand the scientific method.

3. Encourages creativity

SIPs provide students with the opportunity to think creatively and come up with innovative solutions to problems. This encourages creativity and helps students develop new ways of looking at the world.

4. Enhances problem-solving skills

SIPs require students to identify problems and design solutions to address them. This process helps students develop problem-solving skills that are valuable in many fields.

5. Fosters independent learning

SIPs encourage students to take ownership of their learning and work independently. This helps students develop self-directed learning skills that are essential for success in college and beyond.

6. Prepares for college and career

SIPs help students develop skills that are essential for success in college and in many careers, including research, critical thinking, problem-solving, and communication.

7. Contributes to scientific knowledge

SIPs can contribute to the scientific knowledge base by generating new data and insights into scientific topics. This can have a significant impact on the field and can inspire future research.

Overall, science investigatory projects provide students with a unique opportunity to explore scientific topics of their choice and develop important skills that are valuable for success in many fields. By conducting a SIP, students can enhance their understanding of scientific concepts, develop critical thinking and problem-solving skills, and make meaningful contributions to scientific knowledge.

Here in this section, we will tell you the top 23+ science investigatory project topics for curious minds:

1. Investigating the effects of caffeine on plant growth

This project involves growing plants in different concentrations of caffeine and measuring their growth over time.

2. Investigating the effects of temperature on the rate of photosynthesis

This project involves measuring the rate of photosynthesis at different temperatures to determine the optimal temperature for plant growth.

3. Investigating the effects of different types of soil on plant growth

This project involves growing plants in different types of soil to determine which type of soil is best for plant growth.

4. Investigating the effects of music on plant growth

This project involves playing different types of music to plants and measuring their growth over time.

5. Investigating the effects of pH on enzyme activity

This project involves measuring the activity of enzymes at different pH levels to determine the optimal pH for enzyme activity.

6. Investigating the effects of different types of light on plant growth

This project involves growing plants under different types of light to determine which type of light is best for plant growth.

7. Investigating the effects of different types of fertilizer on plant growth

This project involves growing plants in different types of fertilizer to determine which type of fertilizer is best for plant growth.

8. Investigating the effects of water pollution on fish

This project involves exposing fish to different types of water pollutants and measuring their survival rate over time.

9. Investigating the effects of air pollution on plant growth

This project involves exposing plants to different types of air pollutants and measuring their growth over time.

10. Investigating the effects of different types of insulation on heat loss

This project involves measuring the rate of heat loss through different types of insulation to determine which type of insulation is most effective.

11. Investigating the effects of different types of packaging on food preservation

This project involves storing food in different types of packaging to determine which type of packaging is best for food preservation.

12. Investigating the effects of different types of cleaning products on bacteria growth

This project involves testing different types of cleaning products on bacteria growth to determine which product is most effective at killing bacteria.

13. Investigating the effects of different types of water filters on water quality

This project involves testing different types of water filters to determine which type is most effective at removing contaminants from water.

14. Investigating the effects of different types of antacids on stomach acid

This project involves testing different types of antacids on stomach acid to determine which type is most effective at neutralizing acid.

15. Investigating the effects of different types of sunscreen on UV radiation

This project involves testing different types of sunscreen to determine which type is most effective at blocking UV radiation.

16. Investigating the effects of different types of exercise on heart rate

This project involves measuring heart rate during different types of exercise to determine which type of exercise is most effective at increasing heart rate.

17. Investigating the effects of different types of food on blood sugar

This project involves testing the effects of different types of food on blood sugar levels to determine which type of food is best for managing blood sugar.

18. Investigating the effects of different types of disinfectants on bacteria growth

This project involves testing different types of disinfectants on bacteria growth to determine which disinfectant is most effective at killing bacteria.

19. Investigating the effects of different types of music on memory retention

This project involves testing the effects of different types of music on memory retention to determine which type of music is most effective at enhancing memory.

20. Investigating the effects of different types of cooking oils on cholesterol levels

This project involves testing the effects of different types of cooking oils on cholesterol levels to determine which type of oil is best for managing cholesterol.

21. Investigating the effects of different types of toothpaste on tooth decay

This project involves testing different types of toothpaste on tooth decay to determine which type is most effective at preventing tooth decay.

22. Investigating the effects of different types of preservatives on food spoilage

This project involves testing different types of preservatives on food spoilage to determine which type is most effective at preventing food spoilage.

23. Investigating the effects of different types of hand sanitizers on bacteria growth

This project involves testing different types of hand sanitizers on bacteria growth to determine which type is most effective at killing bacteria.

24. Investigating the effects of different types of music on plant growth

This project involves playing different types of music to plants and measuring their growth over time to determine which type of music is most effective at enhancing plant growth.

25. Investigating the effects of different types of exercise on muscle growth

This project involves measuring muscle growth during different types of exercise to determine which type of exercise is most effective at increasing muscle mass.

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Elements of Science Investigatory Project

A successful science investigatory project typically consists of several elements. These elements include:

1. Research question or problem statement

The project should have a clear research question or problem statement that the student is attempting to investigate.

2. Hypothesis

The project should have a clear hypothesis that the student is testing.

3. Experimental design

The project should have a clear experimental design that includes the materials and methods used to conduct the experiment.

4. Data collection and analysis

The project should include data collection and analysis methods that are appropriate for the experiment.

The project should include a clear presentation of the results of the experiment.

6. Conclusion

The project should have a clear conclusion that summarizes the findings of the experiment and discusses their significance.

How to Find Science Investigatory Project Topics

Finding the right science investigatory project topics can be challenging, but there are several ways to get started. Here are some tips for finding science investigatory project ideas:

1. Identify your interests

Start by identifying your interests in science. Do you have a particular area of science that you enjoy? What are some problems or questions in that field that you find interesting?

2. Research current events

Look for current events in science that are relevant to your interests. This can help you identify problems or questions that are currently being investigated.

3. Brainstorm with others

Talk to your friends, family, or classmates about their interests in science. Brainstorm together to come up with ideas for science investigatory projects.

4. Use online resources

There are many online resources that can help you find science investigatory project ideas. Check out science websites, blogs, and forums for ideas, or browse through science fair project databases to see what others have done in the past.

5. Consult with a teacher or mentor

If you’re still struggling to find an idea, consult with a science teacher or mentor. They can offer guidance and help you brainstorm ideas based on your interests and skill level.

How to Choose the Right Science Investigatory Project Topics

Choosing the right science investigatory project topics can make all the difference when it comes to the success of your project. Here are some tips to help you choose the right idea:

1. Choose a topic that interests you

Choose a topic that you find interesting and that you’re passionate about. This will make the project more enjoyable and motivate you to do your best.

2. Choose a topic that’s feasible

Choose a topic that’s realistic and feasible given your time, resources, and skill level. Avoid choosing a topic that’s too complex or requires expensive equipment or materials that you don’t have access to.

3. Choose a topic that’s relevant

Choose a topic that’s relevant to your community or society. This will make the project more meaningful and have a greater impact.

4. Choose a topic that’s original

Choose a topic that’s original and hasn’t been done before. This will make the project more interesting and unique.

5. Choose a topic that’s challenging

Choose a topic that’s challenging but still achievable. This will make the project more rewarding and help you develop new skills.

Significance of Choosing Science Investigatory Project Topics

Choosing the right science investigatory project topics is crucial to the success of your project. Here are some reasons why choosing the right idea is so important:

1. It determines the success of your project

Choosing the right idea can make all the difference when it comes to the success of your project. A well-chosen idea will make the project more enjoyable, more meaningful, and more likely to succeed.

2. It determines the level of engagement

Choosing the right idea will increase your level of engagement with the project. You’ll be more motivated to work on the project and more interested in the results.

3. It helps develop critical thinking skills

Choosing the right idea requires critical thinking and problem-solving skills. By choosing a challenging and original idea, you’ll develop new skills and improve existing ones.

4. It makes the project more relevant

Choosing a topic that’s relevant to your community or society will make the project more meaningful and have a greater impact.

5. It makes the project more interesting

Choosing a topic that’s interesting and unique will make the project more engaging and enjoyable.

This is the end of this post which is about science investigatory project topics. On the other hand, science investigatory projects are a great way to develop critical thinking and problem-solving skills while exploring topics that interest you. With the right idea and a solid plan, you can create a successful project that has a meaningful impact on your community or society.

By following the tips outlined in this post and exploring the 23+ science investigatory project topics provided, you’re sure to find an idea that sparks your curiosity and inspires you to explore the fascinating world of science. So, get your science on and start exploring the possibilities today!

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Writing a Scientific Research Project Proposal

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The importance of a well-written research proposal cannot be underestimated. Your research really is only as good as your proposal. A poorly written, or poorly conceived research proposal will doom even an otherwise worthy project. On the other hand, a well-written, high-quality proposal will increase your chances for success.

In this article, we’ll outline the basics of writing an effective scientific research proposal, including the differences between research proposals, grants and cover letters. We’ll also touch on common mistakes made when submitting research proposals, as well as a simple example or template that you can follow.

What is a scientific research proposal?

The main purpose of a scientific research proposal is to convince your audience that your project is worthwhile, and that you have the expertise and wherewithal to complete it. The elements of an effective research proposal mirror those of the research process itself, which we’ll outline below. Essentially, the research proposal should include enough information for the reader to determine if your proposed study is worth pursuing.

It is not an uncommon misunderstanding to think that a research proposal and a cover letter are the same things. However, they are different. The main difference between a research proposal vs cover letter content is distinct. Whereas the research proposal summarizes the proposal for future research, the cover letter connects you to the research, and how you are the right person to complete the proposed research.

There is also sometimes confusion around a research proposal vs grant application. Whereas a research proposal is a statement of intent, related to answering a research question, a grant application is a specific request for funding to complete the research proposed. Of course, there are elements of overlap between the two documents; it’s the purpose of the document that defines one or the other.

Scientific Research Proposal Format

Although there is no one way to write a scientific research proposal, there are specific guidelines. A lot depends on which journal you’re submitting your research proposal to, so you may need to follow their scientific research proposal template.

In general, however, there are fairly universal sections to every scientific research proposal. These include:

Title: Make sure the title of your proposal is descriptive and concise. Make it catch and informative at the same time, avoiding dry phrases like, “An investigation…” Your title should pique the interest of the reader.
Abstract: This is a brief (300-500 words) summary that includes the research question, your rationale for the study, and any applicable hypothesis. You should also include a brief description of your methodology, including procedures, samples, instruments, etc.
Introduction: The opening paragraph of your research proposal is, perhaps, the most important. Here you want to introduce the research problem in a creative way, and demonstrate your understanding of the need for the research. You want the reader to think that your proposed research is current, important and relevant.
Background: Include a brief history of the topic and link it to a contemporary context to show its relevance for today. Identify key researchers and institutions also looking at the problem
Literature Review: This is the section that may take the longest amount of time to assemble. Here you want to synthesize prior research, and place your proposed research into the larger picture of what’s been studied in the past. You want to show your reader that your work is original, and adds to the current knowledge.
Research Design and Methodology: This section should be very clearly and logically written and organized. You are letting your reader know that you know what you are going to do, and how. The reader should feel confident that you have the skills and knowledge needed to get the project done.
Preliminary Implications: Here you’ll be outlining how you anticipate your research will extend current knowledge in your field. You might also want to discuss how your findings will impact future research needs.
Conclusion: This section reinforces the significance and importance of your proposed research, and summarizes the entire proposal.
References/Citations: Of course, you need to include a full and accurate list of any and all sources you used to write your research proposal.

Common Mistakes in Writing a Scientific Research Project Proposal

Remember, the best research proposal can be rejected if it’s not well written or is ill-conceived. The most common mistakes made include:

Not providing the proper context for your research question or the problem
Failing to reference landmark/key studies
Losing focus of the research question or problem
Not accurately presenting contributions by other researchers and institutions
Incompletely developing a persuasive argument for the research that is being proposed
Misplaced attention on minor points and/or not enough detail on major issues
Sloppy, low-quality writing without effective logic and flow
Incorrect or lapses in references and citations, and/or references not in proper format
The proposal is too long – or too short

Scientific Research Proposal Example

There are countless examples that you can find for successful research proposals. In addition, you can also find examples of unsuccessful research proposals. Search for successful research proposals in your field, and even for your target journal, to get a good idea on what specifically your audience may be looking for.

While there’s no one example that will show you everything you need to know, looking at a few will give you a good idea of what you need to include in your own research proposal. Talk, also, to colleagues in your field, especially if you are a student or a new researcher. We can often learn from the mistakes of others. The more prepared and knowledgeable you are prior to writing your research proposal, the more likely you are to succeed.

One of the top reasons scientific research proposals are rejected is due to poor logic and flow. Check out our Language Editing Services to ensure a great proposal , that’s clear and concise, and properly referenced. Check our video for more information, and get started today.

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25+ Best Science Research Ideas for High School Students

If you’re an ambitious high school student looking for opportunities to build your college profile and learn new skills, consider undertaking a research project. You do not need to be sure about what you want to major in, but having a general idea aligned with your interests helps! Conducting research shows demonstrated interest in a subject, aids critical thinking and problem-solving, provides laboratory experience, and helps you gain analytical and communication skills.

What makes a good research idea?

There are a few key components you need to keep in mind when thinking about a research topic:

What is your project trying to achieve? For your research to be relevant, it needs to identify a knowledge gap and be significant. Your research findings should add to existing literature and help future researchers.

It is important to state what will be included in your research explicitly. Clearly defined boundaries help estimate a realistic timeline and allocate any necessary resources.

The easiest way to be dedicated throughout your research project is by choosing a topic you are passionate about! This will make sure you remain motivated throughout, and it will reflect in your work. Do not choose a topic for the sake of it — you will find the project difficult to complete and your disinterest will reflect in the quality of your work.

Feasibility:

You may have a grand idea for your research topic, but can you execute it? It’s important to consider any constraints you may have — time, money, etc. — and choose a topic that can be completed with your given resources. If you are working independently, choose a topic that isn't resource-intensive. For example, research that requires you use advanced telescopes to examine cosmological patterns may not be feasible if you do not already have access to one.

What do I do once I have a research idea?

Great job, you have found a topic that interests you, is relevant to the field, and is feasible in scope and resources! Next step, you need to find a mentor who can guide and advise you through the research process. They could be a working researcher, a college professor, a graduate student, or a Ph.D. candidate.

If you’re looking for a mentor, we’d recommend applying to the Lumiere Research Scholar Program which connects students with world-class researchers, offers one-on-one mentorship, and guides you through the research and writing process, even helping you get your paper published!

Chemistry research ideas for high school students:

Chemistry can be a great field to undertake independent research in — chemical reactions form the basis of life and can give you a deeper understanding of the world. Moreover, chemistry is directly related to important issues that affect us, like climate change, drug discovery, nanotechnology, and more. Research in these domains can lead to life-changing benefits for society!

Some topics you can research include:

1. Using green chemistry to achieve sustainability targets in the fields of energy, water remediation, agriculture, and sensing

2. Analyzing different energy storage options and comparing and contrasting different technologies' chemistries, performance, lifetime, cost, geographic and resource constraints, and more

3. Investigating how startups and the private sector’s newest technologies are critical to the transition to a green future and how products are commercialized from lab to market

4. Understanding how material nano-structure can create specific properties and take advantage of "structure-property" understanding to engineer new materials

5. Determining the role small molecules play in imaging, labeling, target identification, inhibiting native protein functions, and facilitating foreign ones, especially in new techniques used to understand disease pathways

6. Investigating how molecules are made in nature, such as the reactions performed by enzymes to make natural products

Suggested by Lumiere PhD mentors at Harvard University, University of California, Berkeley, Yale University, University of Cambridge, Technical University of Munich, Georgia Institute of Technology, Duke University, University of Leeds, Cornell University, and John Hopkins University

Biology research ideas for high school students:

Research in biology can contribute to humans’ understanding of living organisms, lead to medical breakthroughs and advancements in healthcare, contribute to cancer research and treatment, deepen our understanding of genetics, improve sustainability by helping develop biofuels and biodegradable materials, and more.

7. Tumor progression and how cancer cells invade and interact with other cells

8. Cancer immunotherapy: the study of how cancer cells evade the immune system and how we can harness the immune system to battle cancer

9. Researching past and current technologies used in gene editing. Identify challenges and weigh the ethical and social implications of these technologies

10. Identifying technical challenges in mass vaccination campaigns. Review existing data from public health organizations and current scientific literature on new vaccine delivery technologies

11. Analyzing the effects of alcohol and drug addiction on the brain

12. Discovering different theories of learning and memory. You can design and use different clinical studies here

Suggested by Lumiere Ph.D. mentors at Stanford University, UC Berkeley, Cornell University, Duke University, and Yale University

Physics research ideas for high school students:

Have space, quantum physics, nuclear science, and other such subjects always fascinated you? If so, a research project in physics is a great way to dig deeper and understand why different phenomena occur. Physics is a broad and interconnected discipline; research in the subject can cover topics like mechanical and electrical engineering, quantum computing, nuclear energy, astrophysical and cosmological phenomena, and computational technologies.

13. The features and limitations of augmented and virtual reality technologies, current industry standards of performance, and solutions to address challenges

14. Cosmological mysteries (like dark energy, inflation, and dark matter) and their hypothesized explanations

15. Physical processes that shape galaxies through cosmic time in the context of extragalactic astronomy and the current issues and frontiers in galaxy evolution

16. Radiation or radiation measurement in applications of nuclear physics (such as reactors, nuclear batteries, and sensors/detectors)

17. The electrical and thermodynamic properties of Boson particles, whose quantum nature is responsible for laser radiation

18. Mathematical derivation of the dynamics of particles from fundamental laws (such as special relativity, general relativity, and quantum mechanics)

19. The theoretical and experimental advances in quantum computing. Explore current high-impact research directions for quantum computing from a hardware or theoretical perspective

20. Nuclear fission or nuclear fusion energy as a possible solution to mitigate climate change

Suggested by Lumiere Ph.D. mentors at Northwestern University, Princeton University, Stanford University, Cornell University, University of Cambridge, Harvard University, University of California, Irvine, and University of Southampton.

Marine biology research ideas for high school students:

Contributing to research in marine biology can be extremely important given the diversity of marine ecosystems, the life they support, and their importance in combating climate change and preventing extreme weather events. Understanding how oceans work directly relates to water pollution and the quality of seafood, contributes to coastal protection and carbon sequestration (the process of capturing and storing excess carbon dioxide), and helps educate the public on the importance of protecting marine habitats.

If this interests you, here are some research topics to consider:

21. Examine how corals are responding to climate change, how the change in oceanic temperatures affects their reef-building capabilities, and the knock-on effects

22. Examine how marine conservation and tourism can go coexist. Suggest ways to ensure the sustainable development of coastal economies

23. Study how marine pollution impacts coastal areas, marine biodiversity, and communities’ livelihoods

24. Study how human activity (like pollution, fishing, and habitat destruction) has impacted marine genomes and how other anthropogenic factors have influenced adaptation and genetic diversity in marine organisms

25. Study the effect of plastic pollution on marine life and examine the benefits of adopting more eco-friendly and biodegradable packaging materials. Develop new methods to remove plastic from the ocean

26. Study carbon sequestration. Investigate how coastal ecosystems like mangroves, saltmarshes, seagrasses, etc. can help mitigate C02 emissions

27. Study the effect of plastic pollution on marine life and examine the benefits of adopting more eco-friendly and biodegradable packaging materials. Develop new methods to remove plastic from the ocean

If you’re looking for a competitive mentored research program in subjects like data science, machine learning, political theory, biology, and chemistry, consider applying to Horizon’s Research Seminars and Labs !

This is a selective virtual research program that lets you engage in advanced research and develop a research paper in a subject of your choosing. Horizon has worked with 1000+ high school students so far, and offers 600+ research specializations for you to choose from.

You can find the application link here

If you’re serious about conducting independent research, you may want to consider the Lumiere Research Scholar Program , a selective online high school program for students founded by researchers at Harvard and Oxford. Last year, we had over 4000 students apply for 500 spots in the program! You can find the application form here . You can also reach out to us at [email protected] to know more, or to have a chat about possible collaborations!

Also check out the Lumiere Research Inclusion Foundation , a non-profit research program for talented, low-income students. Last year, we had 150 students on full need-based financial aid!

Kieran Lobo is a freelance writer from India, who currently teaches English in Spain.

research ideas

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Announcement Graphic for E-Core E-Rise EPSCoR

NSF awards $38M to strengthen research infrastructure, build partnerships and improve STEM workforce development

The U.S. National Science Foundation has awarded researchers in Maine, Mississippi, New Mexico, Puerto Rico and Rhode Island roughly $38 million through the Established Program to Stimulate Competitive Research (EPSCoR), which promotes the development of research competitiveness among 28 targeted states and territories, called jurisdictions. The awards, facilitated by the NSF EPSCoR Collaborations for Optimizing Research Ecosystems Research Infrastructure Improvement (E-CORE RII) program and NSF EPSCoR Research Incubators for STEM Excellence Research Infrastructure Improvement (E-RISE RII) program, aim to enhance research facilities, form new networks, support workforce development and accelerate economic growth in parts of the U.S. that have historically received less funding for scientific research. "The NSF EPSCoR program is critical to ensure that we are creating opportunities and investing in innovation in every part of the United States," said NSF Director Sethuraman Panchanathan. "These new E-CORE RII and E-RISE RII awards will positively impact our nation by advancing the breadth of STEM research, research infrastructure and workforce development while catalyzing opportunities for research and education in EPSCoR jurisdictions and beyond." The E-CORE RII opportunity aids in building capacity in targeted research infrastructure cores within a jurisdiction's research ecosystems. Capacity building may include developing, enhancing and sustaining research administration, facilities, workforce development, partnerships, community engagement and economic development.

The E-RISE RII opportunity supports research teams and products in a scientific area linked to jurisdictional science and technology plans. It seeks innovative proposals for sustainable networks to enhance STEM research capacity in a selected research area that has the potential for sustainable socioeconomic impact within the jurisdiction. E-RISE RII projects aim to build research competitiveness, develop a skilled workforce, promote diversity and inclusion and integrate research efforts.

E-CORE RII and E-RISE RII were established in response to the 2022 Study of the Established Program to Stimulate Competitive Research , the  Envisioning the Future of NSF EPSCoR  report and the "CHIPS and Science Act of 2022." This round of awards will catalyze economic growth by propelling laboratory research to scalable commercial products and bringing together expertise from multiple institutions to unravel complex scientific challenges. The awards will strengthen workforce development through educational initiatives that will help economically disadvantaged students and promote diversity, inclusion and accessibility by cultivating scientists and researchers from different backgrounds with various experiences and points of view.

The awardees and a summary of each project are listed below:  

E-CORE RII: Research Infrastructure Optimization for New Mexico Led by The University of New Mexico, this project aims to connect New Mexico's emerging research institutions (ERIs) with the broader state research ecosystem consisting of national laboratories, high-tech industries and established research universities. By strengthening New Mexico's research infrastructure, the project will foster innovation, which will lead to economic growth in critical sectors and create high-value employment opportunities for graduates from ERIs. The project will also provide the state legislature with insights on economic and workforce trends to enable strategic investments in key areas and foster a culture of inclusion and diversity, thereby broadening participation in the scientific enterprise across individuals, institutions and sectors.

Collaborating institutions (subawardees): Central New Mexico Community College, New Mexico Institute of Mining and Technology, Navajo Technical University and New Mexico State University. E-CORE RII: Rhode Island Inclusive Network for Excellence in Science and Technology The University of Rhode Island is leading this project to enable the state of Rhode Island and the Narragansett Indian Tribe and its citizens to develop and maintain a sustainable, broadly inclusive and competitive research ecosystem that supports use-inspired science and technology and workforce development. The project will sustainably develop capacity, programming, platforms and partnerships that serve and benefit institutions of higher education across Rhode Island by institutionalizing research infrastructure support programs and implementing innovative programs that lead to increased collaborations across the state's institutions. These platforms and systems will lead to an inclusive network for scientific opportunities with low barriers to entry, an increased number of students from minoritized and tribal backgrounds that flourish in STEM, and the creation of new initiatives that align with the strategic diversity, equity, inclusion, justice and access plans of the collaborating institutions.

Collaborating institutions (subawardees): Brown University, Rhode Island College, Rhode Island School of Design and Roger Williams University. E-CORE RII: Mississippi Research Alliance The vision of this project, led by Mississippi State University, is to be a transformative force in the Mississippi research and innovation ecosystem. The project will forge strategic partnerships that harness and enhance existing human and physical assets and coordinate new investments to position Mississippi as a national front-runner in science and technology. The project will strengthen strategic governance, improve sustainable access to instrumentation and foster cross-institutional collaborations, thereby boosting cutting-edge research carried out by interdisciplinary teams and resulting in exponential gains to Mississippi's knowledge-based economy. The project's integrated approach will create a research and development ecosystem that builds strategic alliances among research and emerging research institutions, state agencies and public and private organizations to positively impact education, workforce development and the broader societal understanding of scientific endeavors.

Collaborating institutions (subawardees): The University of Southern Mississippi, The University of Mississippi and Mississippi Valley State University. E-RISE RII: Maine Algal Research Infrastructure and Accelerator The Bigelow Laboratory for Ocean Sciences leads this project to build the Maine Algal Research Infrastructure and Accelerator which will serve as a nucleus for algae-based innovation in Maine and catalyze economic growth and workforce development. This state-of-the-art research infrastructure will be used to streamline exploration of algae's commercial potential -- from individual cell-level analysis to product optimization and eventual scaling. The project will lead to the discovery of novel approaches to harness algae as efficient biofactories for synthesizing new high-value products relevant to the "Maine Innovation Economy Action Plan," while aligning strategic collaborations, including with local farmers and algal companies, to create an accelerated network to enhance the agricultural, aquaculture and pharmaceutical potential of algae in Maine.

Collaborating institutions (subawardees): Mount Desert Island Biological Laboratory, University of New England, Colby College, Maine Center for Entrepreneurs and Gulf of Maine Ventures. E-RISE RII: Cracking the Developmental Blueprint of Life: Omics, Computational Science, and Artificial Intelligence This project, led by the University of Puerto Rico-Rio Piedras, will position Puerto Rico as a thriving hub for innovation and economic growth in the life science and biotech/molecular sectors. Faculty from seven institutions will come together to unravel the complexities of developmental biology by examining the evolutionary and developmental framework of butterfly divergence. The project will delve into the fundamental science of evolution and adaptation, seeking to decipher the molecular intricacies that govern cellular processes and organismal development. The novelty of the project lies in the single cell-genomic resolution around which all other molecular information will be integrated using cutting-edge computational and AI approaches. Also included in the project will be workforce development initiatives that integrate STEM education and interventions to cultivate skills for both academic and non-academic careers, in part by generating important resources for the broader scientific community and through outreach activities tailored to K-12 teachers and students.

Collaborating institutions (subawardees): Centro Comprensivo de Cancer de la Universidad de Puerto Rico.

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Okay, this is the hardest part of the whole project…picking your topic. But here are some ideas to get you started. Even if you don’t like any, they may inspire you to come up with one of your own. Remember, check all project ideas with your teacher and parents, and don’t do any project that would hurt or scare people or animals. Good luck!

Does music affect on animal behavior?
Does the color of food or drinks affect whether or not we like them?
Where are the most germs in your school? ( CLICK for more info. )
Does music have an affect on plant growth?
Which kind of food do dogs (or any animal) prefer best?
Which paper towel brand is the strongest?
What is the best way to keep an ice cube from melting?
What level of salt works best to hatch brine shrimp?
Can the food we eat affect our heart rate?
How effective are child-proof containers and locks.
Can background noise levels affect how well we concentrate?
Does acid rain affect the growth of aquatic plants?
What is the best way to keep cut flowers fresh the longest?
Does the color of light used on plants affect how well they grow?
What plant fertilizer works best?
Does the color of a room affect human behavior?
Do athletic students have better lung capacity?
What brand of battery lasts the longest?
Does the type of potting soil used in planting affect how fast the plant grows?
What type of food allow mold to grow the fastest?
Does having worms in soil help plants grow faster?
Can plants grow in pots if they are sideways or upside down?
Does the color of hair affect how much static electricity it can carry? (test with balloons)
How much weight can the surface tension of water hold?
Can some people really read someone else’s thoughts?
Which soda decays fallen out teeth the most?
What light brightness makes plants grow the best?
Does the color of birdseed affect how much birds will eat it?
Do natural or chemical fertilizers work best?
Can mice learn? (you can pick any animal)
Can people tell artificial smells from real ones?
What brands of bubble gum produce the biggest bubbles?
Does age affect human reaction times?
What is the effect of salt on the boiling temperature of water?
Does shoe design really affect an athlete’s jumping height?
What type of grass seed grows the fastest?
Can animals see in the dark better than humans?

Didn’t see one you like? Don’t worry…look over them again and see if they give you an idea for your own project that will work for you. Remember, find something that interests you, and have fun with it.

To download and print this list of ideas CLICK HERE .

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Project Abstract: NSF NRT: ENERGIZE – Interdisciplinary graduate program integrating data science in energy materials research

Award Number (FAIN): 2244216

Overview: The overall goal for the proposed interdisciplinary training program is to provide a mechanism to train today’s students to solve tomorrow’s problems. Specifically, we will develop a training program to prepare them to undertake convergent research to tackle the urgent societal problem of developing sustainable energy conversion and storage. The increasing occurrence of extreme weather events, including drought, flooding, wildfires and more, is just one indicator of the growing effects of climate change on society. The development of sustainable energy is one of the most important grand challenges society faces. There have been numerous research studies on various approaches towards addressing the increasing demand for energy including conservation of existing resources, improving energy storage and the development of sustainable energy sources. Solving a complex problem such as providing clean energy for the world requires a convergent approach in which scientists and engineers from various fields work collaboratively. However, most academic research is done in a siloed fashion, where students work closely with one lab on one problem. To address these shortcomings, we propose a new training program designed to produce a cadre of Ph.D. students well equipped to perform energy research and work collaboratively to provide new solutions to sustainable energy development.

To accomplish the objectives of the ENERGIZE NRT, we will recruit talented students interested in pursuing Ph.D. degrees from various departments and programs at Boston University (BU) and provide a unique educational experience by unifying resources in engineering, chemistry, computer science, and data sciences to provide participating students with a broad exposure to energy related issues. The NRT program will fund 5 Ph.D. students for two years each. Additionally, up to 15 additionally Ph.D. and masters students will participate as unfunded trainees. It is expected that over the five years of the program between 100-125 students will participate in the NRT training. BU is an ideal place to launch such a training program as we have a breadth of research opportunities available, numerous connections to industry and government labs, and a wealth of existing educational and professional development opportunities available. However, BU often lacks cohesion across our units, and most student experiences are limited to one department or lab. The objective of the ENERGIZE training program is to create new synergies between groups performing research in photochemical conversion, electrochemical conversion, electrochemical storage, and photochemical storage while concurrently providing a holistic education for students grounded in physical and computational experimentation, and data science.

Keywords: Photochemistry; Electrochemistry; Energy Conversion; Energy Storage: Sustainable Energy; Data Science: Materials; Track 1.

Intellectual Merit: The goal of the NRT is to train Ph.D. students in cutting edge research in the fields of photochemical and electrochemical storage and conversion, and to provide a holistic education so that they understand their research in the broader field of sustainability. Training students to have both depth in their specific research and also breadth in the field will have a transformative impact on the next generation of researchers. While their individual research projects have the potential to be transformative by developing novel materials and technologies; the more impactful potential is the transformative shift in our approach to educating Ph.D. students that they are well-rounded and prepared for careers in sustainable energy.

Broader Impacts: This training grant provides an opportunity for graduate students to address key scientific challenges in developing materials for sustainable energy, through convergent research. As such the technological and societal impacts are significant. Further, the interdisciplinary nature of research projects will permit students to work across the fields of chemistry, engineering, and data science. Concurrently, participants education will be augmented through mentoring, professional development and extramural experiences. Recruiting and retaining students from under-represented groups (minorities, women, first-generation) is a central tenant of the program and the PIs will work to ensure diversity within the participants and foster an inclusive atmosphere. Collectively, this project will produce a well-trained workforce with extensive experience working on complex interdisciplinary projects in a diverse environment.

Principal Investigators:

Malika Jeffries , Associate Dean of the Graduate School of Arts & Sciences and Associate Professor of Chemistry and Materials Science.

David Coker , Professor of Chemistry and Computing & Data Sciences, and Director of the Center for Computational Science (CSS) at Hariri Institute.

Emily Ryan , Associate Professor of Mechanical Engineering and Materials Science and Engineering, and Associate Director of the Institute for Global Sustainability (IGS).

James Chapman , Assistant Professor of Mechanical Engineering.

Brian Kulis , Associate Professor, Electrical and Computer Engineering, Computer Science, Systems Engineering, and Computing & Data Sciences.

Core Faculty:

Sahar Sharifzadeh , Associate Professor, Electrical and Computer Engineering, Materials Science Engineering, and Computational Chemistry.

Joerg Werner , Assistant Professor, Mechanical Engineering and Materials Science Engineering.

Bjoern Reinhard , Professor, Chemistry and Materials Science Engineering.

Xi Ling , Associate Professor, Chemistry and Materials Science Engineering.

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Kaua‘i forest bird protection awarded grants to research avian malaria in Hawaiian Honeycreepers

The Maui News

WAILUKU–The U.S. National Science Foundation (NSF) and the Paul G. Allen Family Foundation has announced a $644,758 grant to the Kaua’i Forest Bird Recovery Project (KFBRP) to support on-the-ground efforts in its battle against avian malaria. The grant was awarded Tuesday.

A similar amount of grant funding was also awarded to the University of Hawai’i and the U.S. Geological Survey (USGS) for continued research to improve mosquito breeding to create non-viable offspring to reduce the disease transmission to Hawaiian honeycreeper forest birds.

Dr. Lisa ‘Cali’ Crampton, KFBRP Program Manager said, “We are very excited to be involved in this effort to use top-notch science to help us advance conservation of critically endangered forest bird species through reduction of mosquito-borne disease. Funding from the Partnership to Advance Conservation and Practice (PACSP) program will allow KFBRP to better monitor and refine the application and efficacy of a new tool, the Incompatible Insect Technique (IIT), to suppress mosquitoes in Hawaiian forest bird habitat.”

This research is one of 10 projects receiving funding under the PACSP program, a first-of-its-kind collaboration between the NSF and the Paul G. Allen Family Foundation. Now in its second year, the program is designed to catalyze deep collaboration between researchers advancing basic science and conservation partners engaging in on-the-ground conservation.

The projects focus on a range of species, from Hawaiian honeycreepers to grizzly bears and Venus flytraps. The outcomes will have far-reaching implications for biodiversity and conservation, policy, and the economy.

“The fundamental knowledge these projects create, even though related to specific species, will unlock innovative conservation efforts across a broader range of threatened species and ecosystems,” said Lara Littlefield, executive director for programs and partnerships at the Paul G. Allen Family Foundation. “For instance, studying whether mosquitoes infected with bacteria can limit the spread of malaria among birds in Hawaii could ultimately limit disease spread among other animals more broadly.”

Each project extends basic science into on-the-ground conservation to address critical knowledge and data gaps, enabling greater real-world impact to benefit species and ecosystems.

“The unique partnerships this program creates forge a roadmap to broader conservation action by uniting the skills, expertise and tools needed to address the most urgent threats to our natural world,” said Susan Marqusee, NSF assistant director for biological sciences. “These projects also will engage the public, policymakers, law enforcement and others in conservation through education, outreach and other broader impacts.”

David Smith, DLNR Division of Forestry and Wildlife (DOFAW) Administrator commented, “This grant builds on the strong multi-partner collaboration already in place to combat avian malaria as the single-largest threat facing native forest birds, like the honeycreepers. Every little bit helps, particularly currently, when we are facing the strong likelihood of one or more species of honeycreepers going extinct in the very near future.”

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How To : The Best Investigatory Projects in Science: 16 Fun & Easy Ideas to Kickstart Your Project

Most of us have conducted an investigatory science project without even knowing it, or at least without knowing that's what it was called. Most science experiments performed, from elementary to high school students and all the way up to professional scientists, are investigatory projects.

What's an Investigatory Project Exactly?

An investigatory project is basically any science experiment where you start with an issue or problem and conduct research or an investigation to decide what you think the outcome will be. After you've created your hypothesis or proposal, you can conduct a controlled experiment using the scientific method to arrive at a conclusion.

What's the Scientific Method?

For those of us who have forgotten the various steps of the scientific method, let me clear that up right here:

Remember, however, that a successful investigatory science project does not necessarily have to result in the intended outcome. The purpose of these projects is to think critically, and if the solution doesn't work out, that doesn't mean your project will fail.

What Kind of Investigatory Projects Are There?

In order to conduct a great investigatory experiment, you have to ask an interesting question and be able to conduct an experiment that can hopefully answer that question. The harder and more intriguing the initial question is, the better the resulting investigation and experiment will be.

I've listed a few examples below of some of the best investigatory experiments out there, so hopefully you'll have no problem coming up with an idea.

Project #1: Making Soap Out of Guava

Basic hygiene should be available to everyone, but what about people who live in areas without easy access to grocery stores or pharmacies? This is a great question that makes you think about scientific alternatives to store-bought soap.

Below is an example project that creates soap from guava leaf extract and sodium hydroxide, but there's no shortage of materials you can use to replace the guava, like coconut oil or a fat like lard, butter or even the grease from your kitchen .

Project #2: Used Cooking Oil as a Substitute for Diesel

We all know how lucrative the oil business is, but what if the next huge innovation in oil was sitting right inside your kitchen cabinet? With the high prices of regular gasoline and diesel fuel, the possibility of creating a usable diesel fuel from household cooking oils is pretty exciting.

Although creating diesel fuel out of cooking oils that will run a BMW may sound like a reach, it still makes for a great project. And who knows, maybe in doing this you'll actually figure out what was missing from previous attempts . Being an instant billionaire doesn't sound too bad to me.

If you're interested in trying it for yourself, there's a great step-by-step guide with a full ingredients list and photos over on Make .

Project #3: Create Another Alternative Fuel

If biodiesel isn't your forte, you can try making oxyhydrogen gas or creating hydrogen gas via electrolysis or vice versa, creating electricity from hydrogen gas .

Project #4: Purifying Used Cooking Oil

Speaking of oil, if you use it to cook, you know that a lot of it goes to waste. But what if you could clean that oil and use it over and over again? Not only would that save money, but it would also benefit the environment since most people do not properly dispose of used cooking oil (no, pouring it down the drain doesn't count).

Your project goal would be to research methods of filtration or purification and test it on cooking oils. To easily demonstrate which method works best, try cooking some food in the oil produced by each one. Good food can go a long way when it comes to winning people over.

Check out the abstract and description of a similar project here .

Project #5: Alternative Methods of Producing Iodized Salt

In areas isolated from the sea, IDD or Iodine Deficiency Disease, is very common. Since these areas do not have easy access to marine foods or grocery stores, the population becomes very susceptible to the disease due to a lack of iodine in the diet. In order to combat this, researchers and doctors have begun infusing iodine into regular table salts.

If not iodine is readily available, it can be chemically made either with sulfuric acid and alkali metal iodide or hydrochloric acid and hydroxide peroxide .

But perhaps there are other more accessible ways to create an iodized salt that people could make at home. For a starting point, take a look at this previous experiment .

Project #6: Making Biodegradable Plastic

Plastic bags are actually illegal in Santa Monica , CA (and soon to be Los Angeles ) because of their threat to the environment due to insane resistance to biodegradation. I didn't think they were that bad, but one plastic bag can take up to 1,000 years to break down completely, and it can even ruin your car along the way. So, creating a better biodegradable plastic bag would be a huge achievement.

The only question is how one would go about doing so, and what materials could be used? That's the question you can answer for your project. This project used cassava starch as an effective component for a biodegradable plastic, but you could try using a few different starches and see what works best.

Project #7: Solar Water Purification

One of the biggest world problems is finding clean water. While we in the states can find purified or drinkable tap water almost anywhere, millions of people around the world don't have access to clean drinking water.

A few students decided to investigate a potential purification process using the sun's energy and an aluminum sheet. Watch the video below for more information and a complete walkthrough of their scientific process.

And if you're an overachiever, you can step it up a notch and try purifying pee instead .

Project #8: Perfecting the Paper Bridge

Of course, an investigatory project doesn't always have to answer such grand questions. This experiment looks to discover how to build the strongest paper bridge by varying how the pieces are held together. So, the question is, "How do design changes affect a load bearing structure?"

Check out the video below for more information on replicating the project yourself.

Project #9: Making Instant Ice

It's summer time and the degrees are already hitting triple digits in some areas. When it's this hot, there are few things better than a glass of ice chilled water or lemonade. But what happens if you don't have ice? Can you create your own ice or cool drinks quickly by another method? Check out this clip from King of Random .

Cool, huh? But how does it work? Is there any other way to replicate this? Well, let the investigation begin. Figure out what your hypotheses will be and follow along with this video for you own investigatory project.

For more information and additional photos, be sure to check out the King of Random's full tutorial .

Project #10: Increase the Shelf-Life of Fruits and Veggies

Extending the shelf-life of perishable fruits and vegetables can make a huge difference for small farmers, street-side vendors and even your average Joe—groceries aren't cheap. What is an inexpensive and easily accessible way to make produce stay fresh longer?

That's the question behind this great investigatory science project featured here . While these researchers focused exclusively on chitosan coating on bananas, you can branch out (no pun intended) and try an assortment of other fruits, veggies and possible coating materials.

For more information on how to keep your fruits and vegetables fresh for longer, check out my previous article , or Yumi's recent illustration for other ideas.

Project #11: Slow the Ripening of Sliced or Chopped Produce

You could also focus your project on keeping fruits and vegetables from browning after they've already been cut up. There are various methods and materials you can use to slow down the ripening process, such as honey and lemon juice. Watch the video below and read this tutorial for more information and ideas.

Your project could revolve around finding the best option, and testing out some of your own browning-prevention solutions to see if you can come up with a better one.

Project #12: Improve Memory by Thinking Dirty

If my memory was any good I would be fluent in Spanish and never need to look up the Quadratic Formula again. But my problems are more superficial, like forgetting where I put my keys or what time my dentist appointment was supposed to be. There are folks out there who do suffer from real memory problems, so figuring out how to help improve memory makes for a great investigatory project.

There are tons of studies on memory and memory loss that you can research. But for your investigatory science project, you will want to come up with your own hypothesis based on that information and test it out. Does using colors to form associations help with memory? Does linking an image with a memory increase its hold in the carrier's head? What about drinking grape juice or sniffing rosemary ? These are the types of questions you may look to answer.

This article contends that memory can be improved by looking at NSFW images or thinking of dirty associations. Come up with your own theory and let the brain hacking begin.

Project #13: Improving Social Anxiety by Manipulating the Body & Mind

Science experiments don't always have to include chemicals or test tubes. The science of the mind can be just as interesting. So what's the investigation consist of?

Can you truly affect the way you act and feel by simply changing your posture? Does acting a certain way manipulate the mind drastically enough to actually change the way you feel?

Check out Amy Cuddy's awesome TED Talk for more ideas for additional questions you could ask.

Project #14: Kitchen DNA Extraction

You may think studying DNA is only for professionals with super expensive lab equipment, but you can actually extract DNA from any living thing with a few basic ingredients you probably have in your kitchen like dish soap and rubbing alcohol.

Decide on something to vary, like different fruits and vegetables or types of dish soap, and come up with a hypothesis regarding which will allow you to collect the most DNA material.

You can also find more information, as well as another way to perform the experiment, here .

Project #15: Make Homemade Glue from Milk

With milk, white vinegar and baking soda, you can make your own glue right at home. Make it an investigatory project by changing up the recipe and testing which results in the strongest glue. You could also try varying the ingredients to make it dry faster, or work on different materials (wood vs. plastic vs. paper).

Project #16: Make a Battery Out of Fruits and Vegetables

How can you power a small light or device without electricity? You can make a DIY battery with a few different types of fruits and vegetables. Anything from a lemon to an apple , potato , or even passion fruit will work.

Pick a few different fruits or vegetables and form a hypothesis as to which will make the battery that puts out the most energy or lasts the longest. Once you've built your batteries, hook up a volt meter to read the output and see which one is the best.

What's Your Favorite?

Know of an awesome investigatory project that's not on the list, like wireless electricity or cheaper x-ray machines ? Let us know in the comments below. If you decide to use any of these ideas for your own project, be sure to take some photos and show off your results over in the Inspiration section !

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15 Comments

It's the best thing av seen

these things are really useful............

All of this was perfect for my Investigatory Project . ! :D

"All of this 'were' perfect for my Investigatory Project"

"all of 'these' were perfect for my investigatory project

heheh !! all of these examples above are usefull.. great job kuya's ang ate's heheh muah muah

how i can make a gameor a toy based on a scientific principal for class x

It really helps me to find a good topic for my investigatory project. Thanks. :)

how about devices that remove particles from the smoke/gas

yes biodegradable plastic bag is better but how ?

i like it so much i have now a science investigatory project

thanx for these I`ve enjoy it... i have now a sip

Is it possible to invent a machine that automatically segregate our trash? I want to make it possible through SIP...

nice and amazing

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Make slime without borax : 5 easy recipes for gooey homemade ooze, how to : prove that water molecules are polar with a home-science experiment, how to : make this amazing 9-layer density tower from things found in your kitchen, how to : make soap out of guava leaf extract for a science investigatory project, how to : build a simple paper bridge as a science experiment, how to : make a crazy foam explosion science experiment, how to : make a monster dry ice bubble, how to : determine the empirical and molecular formulas for a compound in chemistry, how to : make diy nitrogen triiodide from ammonia & water purification iodine crystals, how to : determine volume measurement, how to : turn milk into strong natural glue with baking soda and vinegar, classic chemistry : colorize colorless liquids with "black" magic, aka the iodine clock reaction, how to : diy ninja turtle ooze make your own radioactive canister of glowing green slime at home, news : 74 days of nasty time-lapsed food rot, how to : make iodine easily, how to : weather forecast and weather predict without technology, how to : make ammonium nitrate with nahso4 and nitrate salt, how to : make thunder in a test tube with ethanol & acetone, how to : make chlorine gas with pool chlorine and hydrochloric acid.

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80+ Science Research Paper Topics Ideas For Students

Essay writing or writing dissertation is an integral part of education at any level, middle school, high school, or college. Some of the most common essays are on science research topics, and they are also quite interesting. However, choosing research paper topics isn’t as straightforward as you’d like. You’ll need to carry out a survey on and draw inspiration from several scientific research topics before finally choosing one. Choosing science topics, especially if they are argumentative essay topics , to write about can be a frustrating task, especially when science is a pretty wide subject. If you need inspiration on interesting science topics, we’ll give you some science research paper ideas. But, first, let’s talk about how to choose the best science research paper topics – it makes things easier.

What Are Some Science Topics You Can Write About?

Interesting science research topics, ideas of science research topics for high school students, science research topics for college students, science research topics for middle school, scientific research question examples, science presentation ideas, cool science topics to research, ideas of scientific topics for research on nanotechnology, fascinating ideas for science research projects, interesting science topics for high school research papers, tips for choosing science research topics.

Being a very broad subject, students often find choosing a science topic for a research paper difficult. However, the secret is knowing what scientific research questions will make for a good paper, and what people will want to read. So, when choosing science topics for papers, here are tips you can follow to make the task easier.

Choose cool science topics you’re interested in and that’ll interest your readers.
Search online for research question examples science for ideas on what your paper should be about.
Avoid choosing too-broad research topics for high school, to ensure your work is well detailed.
Consider contemporary scientific research questions concerning recent happenings; they can be fun to write
Read your notes and online academic papers for inspiration on good science research paper topics.
Choose simple but highly informative research topics for high school students.
Choose good science topics you have some knowledge of and can confidently talk about.
Learn how to choose science topics for high school to make things easier.
Be familiar with the dos and don’ts of choosing scientific research paper topics.
Choose a scientific topic for research papers that has enough accessible information.

The Dos and Don’ts of Choosing Science Topics

Knowing the dos and don’ts of choosing a science title helps you select a good topic and ultimately write an outstanding paper. So, when searching for science topics for presentations,

Do understand that there are different topics in science you can research on;
Do read extensively for science research paper ideas; it helps you know what to write about;
Don’t include words like “Research of” or “Study of” in your chosen science topics to research;
Don’t choose high school science research paper topics with scanty or inaccessible information available;
Do check online for interesting science research ideas on how to write your paper;
Feel free to ask your instructor, colleagues, or seniors for scientific research ideas.

When searching for interesting science topics or social media research topics related to science to writing on, you will find different ones on different subjects, which can be confusing. You can follow the tips we listed for choosing science-related topics for a research paper. Meanwhile, here are some science paper topics you can use if none is forthcoming.

Is there a move for the Covid-19 vaccine?
What “flattening the curve” means
Molecular evidence of humans interbreeding with Neanderthals
Impact of cardio exercise on heart health
The importance of exploring the solar system
Can a comet strike the earth?
The Hubble Space Telescope
Top ten chemistry careers
Acid rain effect aquatic plants’ growth
Room color and human behavior
How can plants grow in pots?
Water’s surface tension weight capacity
What does the paleo diet mean?
Is Pluto still a planet?
The future of commercial space flight
Do you inherit fingerprint patterns?
Ways in which handwashing prevents the spread of the Covid-19 virus
Molecular biological research on rare genetic disorders impact on understanding cancer
Do men pass on genetic abnormalities to their posterity as they age?
How can men’s exercise affect the traits they pass on to their children?
Is there really life on Mars; has there ever been?
Ways of solving the problem of junk space
The importance of Dark Matter
Black holes
Different ways to keep ice from defrosting
Are pet hairs harmful to the human body?
Some of the germs you’ve seen in your school
The effect of music on your assimilation ability
The types of food dogs prefer the best
Good hygienic practices for keeping clean
Foods that develop molds the fastest
How different body parts aid the effective functioning of the system
Do worms in the soil really affect plant growth and how?
Can light brightness make plants grow well?
What kinds of fertilizers work best, chemical or natural?
Can mice (or any animal of your choice) learn?
How can age affect the human reaction?
Why does water boil faster when put in salt?
Can food affect the heart, how?
Can background noise interfere with learning and assimilation?
Can Higgs Boson destroy the universe?
Effects of sunspots on man
Should humans live in space?
The most important technological innovations in medicinal chemistry in recent years
The danger of chemicals emitted from pharmaceutical companies
The importance of big data and bioinformatics to chemical research
The sugar chemistry behind making candy
Biomacromolecules
Trends in India’s medicinal chemistry research
Nuclear fusion
Reproduction in mammals
How do fish mate?
How useful are science museums in teaching science?
Why do birds have beautiful feathers?
The safety of offshore drilling
The importance of climate change legislation
Hydraulic fracking’s negative effects
Uses of microelectronics
Nanotechnology in medicine
Nanotechnology for cancer treatment
Can nanofibers repair brain injuries?
Effect of nanomedicine on human lifespan
Nanomaterial
How nanotechnology helps in patient diagnosis
How to reduce antibiotic use in agriculture
The ethics of stem cell research
The best leukemia treatment
Gene therapy
Causes of skin cancer
Colonoscopy testing on colon cancer
Why eliminating malaria is difficult
The possibility of predicting the next pandemic
Do childhood vaccines prevent diseases?
How cells shield the body against diseases
Should wild animals interact with humans?
Are self-driving cars good?
Regulating sugar use
Different types of headaches
Can migraine cause death?
The ideal weight for living long

Feel free to choose from this scientific research topics list for your science research paper. There are many things to research where science is concerned, including stem research topics , among others. There is no shortage of scientific topics to research and choosing the best one gets easy when you know how to. If you’ve chosen a topic and you need help writing on them, you can contact our professional writing service. We have a team of experts who can write on any science topic and ensure you meet your deadline.

COMMENTS

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To make a background research plan — a roadmap of the research questions you need to answer — follow these steps: Identify the keywords in the question for your science fair project. Brainstorm additional keywords and concepts. Use a table with the "question words" (why, how, who, what, when, where) to generate research questions from your ...
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The Regeneron ISEF is the world's largest international pre-college STEM competition—high school students representing all 50 states and more than 70 countries, regions, and territories, take part. Students showcase independent research and compete across 22 categories for awards ranging from $500 to $75,000.
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Breaking science news and articles on global warming, extrasolar planets, stem cells, bird flu, autism, nanotechnology, dinosaurs, evolution -- the latest discoveries ...
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Projects. Our teams leverage research developments across domains to build tools and technology that impact billions of people. Sharing our learnings and tools to fuel progress in the field is core to our approach. Languages. How Google is expanding support for thousands of the world's languages. Learn More.
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1. Choose a topic that interests you. First, you must identify a field of study that you would like to research. At the student level, you will either be assigned a topic during a course or choose a lab that performs research that interests you. Choose a subject that excites you or that you find yourself drawn to.
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Funding Opportunities in Fiscal Year 2024 The Marine Mammal Commission is accepting proposals between December 06, 2023 and February 14, 2024 for projects focused on A) marine mammals in a changing climate; or B) advancing diversity, equity, inclusiveness, belonging, accessibility, and justice (DEIBAJ) in marine mammal science. Funding requests are limited to $60,000 USD.
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Seventy-Five Scientific Research Projects You Can Contribute to Online

American Wildlife

Under the Sea

Interesting Insects

For the Birders

Pretty Plants

Historic Women in Astronomy

Microscopic Musings

Out of This World

What are your chances of acceptance?

Your chancing factors

What’s Covered:

Why Should You Enter a Science Research Competition?

25 Science Research Competitions for High Schoolers

2. NCF-Envirothon

3. Regeneron International Science and Engineering Fair (ISEF)

4. National Science Bowl

5. National Science Olympiad

6. Regeneron Science Talent Search (STS)

7. Stockholm Junior Water Prize

8. TOPSS Competition for High School Psychology Students

9. Junior Science and Humanities Symposium (JSHS) National Competition

10. MIT THINK Scholars Program

11. Conrad Challenge

12. USA Biolympiad Competition

13. Davidson Fellows Scholarship

14. Destination Imagination

15. Breakthrough Junior Challenge

16. Biotechnology Institute BioGENEius Challenge

17. Genes in Space

18. Odyssey of the Mind

19. U.S. National Chemistry Olympiad

20. ArcGIS Online Competition

21. AAPT High School Physics Photo Contest

22. DNA Day Essay Contest

23. The Biomimicry Institute: Youth Design Challenge

24. TEAMS (Tests of Engineering Aptitude, Mathematics, and Science)

25. Eye on the Future Teen Video Contest

How Do Science Research Competitions Affect My Admissions Chances?

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110+ Best Science Investigatory Project Topics: Dive into Science

What is a Science Investigatory Project?

Here’s how it works

Step 2: The Guess

Step 3: The Detective Work

Step 5: The “Aha!” Moment

Step 6: Sharing Your Discovery

Choosing the Right SIP Topic

Follow Your Passion

Real-World Relevance

Feasibility

Originality Matters

Mentor Guidance

Popular Science Investigatory Project Topics

Environmental Science