experiment 3 energy lab report

Have a language expert improve your writing

Run a free plagiarism check in 10 minutes, generate accurate citations for free.

Knowledge Base
Academic writing
How to write a lab report

How To Write A Lab Report | Step-by-Step Guide & Examples

Published on May 20, 2021 by Pritha Bhandari . Revised on July 23, 2023.

A lab report conveys the aim, methods, results, and conclusions of a scientific experiment. The main purpose of a lab report is to demonstrate your understanding of the scientific method by performing and evaluating a hands-on lab experiment. This type of assignment is usually shorter than a research paper .

Lab reports are commonly used in science, technology, engineering, and mathematics (STEM) fields. This article focuses on how to structure and write a lab report.

Instantly correct all language mistakes in your text

Upload your document to correct all your mistakes in minutes

Structuring a lab report, introduction, other interesting articles, frequently asked questions about lab reports.

The sections of a lab report can vary between scientific fields and course requirements, but they usually contain the purpose, methods, and findings of a lab experiment .

Each section of a lab report has its own purpose.

Title: expresses the topic of your study
Abstract : summarizes your research aims, methods, results, and conclusions
Introduction: establishes the context needed to understand the topic
Method: describes the materials and procedures used in the experiment
Results: reports all descriptive and inferential statistical analyses
Discussion: interprets and evaluates results and identifies limitations
Conclusion: sums up the main findings of your experiment
References: list of all sources cited using a specific style (e.g. APA )
Appendices : contains lengthy materials, procedures, tables or figures

Although most lab reports contain these sections, some sections can be omitted or combined with others. For example, some lab reports contain a brief section on research aims instead of an introduction, and a separate conclusion is not always required.

If you’re not sure, it’s best to check your lab report requirements with your instructor.

Prevent plagiarism. Run a free check.

Your title provides the first impression of your lab report – effective titles communicate the topic and/or the findings of your study in specific terms.

Create a title that directly conveys the main focus or purpose of your study. It doesn’t need to be creative or thought-provoking, but it should be informative.

The effects of varying nitrogen levels on tomato plant height.
Testing the universality of the McGurk effect.
Comparing the viscosity of common liquids found in kitchens.

An abstract condenses a lab report into a brief overview of about 150–300 words. It should provide readers with a compact version of the research aims, the methods and materials used, the main results, and the final conclusion.

Think of it as a way of giving readers a preview of your full lab report. Write the abstract last, in the past tense, after you’ve drafted all the other sections of your report, so you’ll be able to succinctly summarize each section.

To write a lab report abstract, use these guiding questions:

What is the wider context of your study?
What research question were you trying to answer?
How did you perform the experiment?
What did your results show?
How did you interpret your results?
What is the importance of your findings?

Nitrogen is a necessary nutrient for high quality plants. Tomatoes, one of the most consumed fruits worldwide, rely on nitrogen for healthy leaves and stems to grow fruit. This experiment tested whether nitrogen levels affected tomato plant height in a controlled setting. It was expected that higher levels of nitrogen fertilizer would yield taller tomato plants.

Levels of nitrogen fertilizer were varied between three groups of tomato plants. The control group did not receive any nitrogen fertilizer, while one experimental group received low levels of nitrogen fertilizer, and a second experimental group received high levels of nitrogen fertilizer. All plants were grown from seeds, and heights were measured 50 days into the experiment.

The effects of nitrogen levels on plant height were tested between groups using an ANOVA. The plants with the highest level of nitrogen fertilizer were the tallest, while the plants with low levels of nitrogen exceeded the control group plants in height. In line with expectations and previous findings, the effects of nitrogen levels on plant height were statistically significant. This study strengthens the importance of nitrogen for tomato plants.

Your lab report introduction should set the scene for your experiment. One way to write your introduction is with a funnel (an inverted triangle) structure:

Start with the broad, general research topic
Narrow your topic down your specific study focus
End with a clear research question

Begin by providing background information on your research topic and explaining why it’s important in a broad real-world or theoretical context. Describe relevant previous research on your topic and note how your study may confirm it or expand it, or fill a gap in the research field.

This lab experiment builds on previous research from Haque, Paul, and Sarker (2011), who demonstrated that tomato plant yield increased at higher levels of nitrogen. However, the present research focuses on plant height as a growth indicator and uses a lab-controlled setting instead.

Next, go into detail on the theoretical basis for your study and describe any directly relevant laws or equations that you’ll be using. State your main research aims and expectations by outlining your hypotheses .

Based on the importance of nitrogen for tomato plants, the primary hypothesis was that the plants with the high levels of nitrogen would grow the tallest. The secondary hypothesis was that plants with low levels of nitrogen would grow taller than plants with no nitrogen.

Your introduction doesn’t need to be long, but you may need to organize it into a few paragraphs or with subheadings such as “Research Context” or “Research Aims.”

Don't submit your assignments before you do this

The academic proofreading tool has been trained on 1000s of academic texts. Making it the most accurate and reliable proofreading tool for students. Free citation check included.

Try for free

A lab report Method section details the steps you took to gather and analyze data. Give enough detail so that others can follow or evaluate your procedures. Write this section in the past tense. If you need to include any long lists of procedural steps or materials, place them in the Appendices section but refer to them in the text here.

You should describe your experimental design, your subjects, materials, and specific procedures used for data collection and analysis.

Experimental design

Briefly note whether your experiment is a within-subjects or between-subjects design, and describe how your sample units were assigned to conditions if relevant.

A between-subjects design with three groups of tomato plants was used. The control group did not receive any nitrogen fertilizer. The first experimental group received a low level of nitrogen fertilizer, while the second experimental group received a high level of nitrogen fertilizer.

Describe human subjects in terms of demographic characteristics, and animal or plant subjects in terms of genetic background. Note the total number of subjects as well as the number of subjects per condition or per group. You should also state how you recruited subjects for your study.

List the equipment or materials you used to gather data and state the model names for any specialized equipment.

List of materials

35 Tomato seeds

15 plant pots (15 cm tall)

Light lamps (50,000 lux)

Nitrogen fertilizer

Measuring tape

Describe your experimental settings and conditions in detail. You can provide labelled diagrams or images of the exact set-up necessary for experimental equipment. State how extraneous variables were controlled through restriction or by fixing them at a certain level (e.g., keeping the lab at room temperature).

Light levels were fixed throughout the experiment, and the plants were exposed to 12 hours of light a day. Temperature was restricted to between 23 and 25℃. The pH and carbon levels of the soil were also held constant throughout the experiment as these variables could influence plant height. The plants were grown in rooms free of insects or other pests, and they were spaced out adequately.

Your experimental procedure should describe the exact steps you took to gather data in chronological order. You’ll need to provide enough information so that someone else can replicate your procedure, but you should also be concise. Place detailed information in the appendices where appropriate.

In a lab experiment, you’ll often closely follow a lab manual to gather data. Some instructors will allow you to simply reference the manual and state whether you changed any steps based on practical considerations. Other instructors may want you to rewrite the lab manual procedures as complete sentences in coherent paragraphs, while noting any changes to the steps that you applied in practice.

If you’re performing extensive data analysis, be sure to state your planned analysis methods as well. This includes the types of tests you’ll perform and any programs or software you’ll use for calculations (if relevant).

First, tomato seeds were sown in wooden flats containing soil about 2 cm below the surface. Each seed was kept 3-5 cm apart. The flats were covered to keep the soil moist until germination. The seedlings were removed and transplanted to pots 8 days later, with a maximum of 2 plants to a pot. Each pot was watered once a day to keep the soil moist.

The nitrogen fertilizer treatment was applied to the plant pots 12 days after transplantation. The control group received no treatment, while the first experimental group received a low concentration, and the second experimental group received a high concentration. There were 5 pots in each group, and each plant pot was labelled to indicate the group the plants belonged to.

50 days after the start of the experiment, plant height was measured for all plants. A measuring tape was used to record the length of the plant from ground level to the top of the tallest leaf.

In your results section, you should report the results of any statistical analysis procedures that you undertook. You should clearly state how the results of statistical tests support or refute your initial hypotheses.

The main results to report include:

any descriptive statistics
statistical test results
the significance of the test results
estimates of standard error or confidence intervals

The mean heights of the plants in the control group, low nitrogen group, and high nitrogen groups were 20.3, 25.1, and 29.6 cm respectively. A one-way ANOVA was applied to calculate the effect of nitrogen fertilizer level on plant height. The results demonstrated statistically significant ( p = .03) height differences between groups.

Next, post-hoc tests were performed to assess the primary and secondary hypotheses. In support of the primary hypothesis, the high nitrogen group plants were significantly taller than the low nitrogen group and the control group plants. Similarly, the results supported the secondary hypothesis: the low nitrogen plants were taller than the control group plants.

These results can be reported in the text or in tables and figures. Use text for highlighting a few key results, but present large sets of numbers in tables, or show relationships between variables with graphs.

You should also include sample calculations in the Results section for complex experiments. For each sample calculation, provide a brief description of what it does and use clear symbols. Present your raw data in the Appendices section and refer to it to highlight any outliers or trends.

The Discussion section will help demonstrate your understanding of the experimental process and your critical thinking skills.

In this section, you can:

Interpret your results
Compare your findings with your expectations
Identify any sources of experimental error
Explain any unexpected results
Suggest possible improvements for further studies

Interpreting your results involves clarifying how your results help you answer your main research question. Report whether your results support your hypotheses.

Did you measure what you sought out to measure?
Were your analysis procedures appropriate for this type of data?

Compare your findings with other research and explain any key differences in findings.

Are your results in line with those from previous studies or your classmates’ results? Why or why not?

An effective Discussion section will also highlight the strengths and limitations of a study.

Did you have high internal validity or reliability?
How did you establish these aspects of your study?

When describing limitations, use specific examples. For example, if random error contributed substantially to the measurements in your study, state the particular sources of error (e.g., imprecise apparatus) and explain ways to improve them.

The results support the hypothesis that nitrogen levels affect plant height, with increasing levels producing taller plants. These statistically significant results are taken together with previous research to support the importance of nitrogen as a nutrient for tomato plant growth.

However, unlike previous studies, this study focused on plant height as an indicator of plant growth in the present experiment. Importantly, plant height may not always reflect plant health or fruit yield, so measuring other indicators would have strengthened the study findings.

Another limitation of the study is the plant height measurement technique, as the measuring tape was not suitable for plants with extreme curvature. Future studies may focus on measuring plant height in different ways.

The main strengths of this study were the controls for extraneous variables, such as pH and carbon levels of the soil. All other factors that could affect plant height were tightly controlled to isolate the effects of nitrogen levels, resulting in high internal validity for this study.

Your conclusion should be the final section of your lab report. Here, you’ll summarize the findings of your experiment, with a brief overview of the strengths and limitations, and implications of your study for further research.

Some lab reports may omit a Conclusion section because it overlaps with the Discussion section, but you should check with your instructor before doing so.

If you want to know more about AI for academic writing, AI tools, or fallacies make sure to check out some of our other articles with explanations and examples or go directly to our tools!

Ad hominem fallacy
Post hoc fallacy
Appeal to authority fallacy
False cause fallacy
Sunk cost fallacy
Deep learning
Generative AI
Machine learning
Reinforcement learning
Supervised vs. unsupervised learning

(AI) Tools

Grammar Checker
Paraphrasing Tool
Text Summarizer
AI Detector
Plagiarism Checker
Citation Generator

A lab report conveys the aim, methods, results, and conclusions of a scientific experiment . Lab reports are commonly assigned in science, technology, engineering, and mathematics (STEM) fields.

The purpose of a lab report is to demonstrate your understanding of the scientific method with a hands-on lab experiment. Course instructors will often provide you with an experimental design and procedure. Your task is to write up how you actually performed the experiment and evaluate the outcome.

In contrast, a research paper requires you to independently develop an original argument. It involves more in-depth research and interpretation of sources and data.

A lab report is usually shorter than a research paper.

The sections of a lab report can vary between scientific fields and course requirements, but it usually contains the following:

Abstract: summarizes your research aims, methods, results, and conclusions
References: list of all sources cited using a specific style (e.g. APA)
Appendices: contains lengthy materials, procedures, tables or figures

The results chapter or section simply and objectively reports what you found, without speculating on why you found these results. The discussion interprets the meaning of the results, puts them in context, and explains why they matter.

In qualitative research , results and discussion are sometimes combined. But in quantitative research , it’s considered important to separate the objective results from your interpretation of them.

Cite this Scribbr article

If you want to cite this source, you can copy and paste the citation or click the “Cite this Scribbr article” button to automatically add the citation to our free Citation Generator.

Bhandari, P. (2023, July 23). How To Write A Lab Report | Step-by-Step Guide & Examples. Scribbr. Retrieved August 21, 2024, from https://www.scribbr.com/academic-writing/lab-report/

Is this article helpful?

Pritha Bhandari

Other students also liked, guide to experimental design | overview, steps, & examples, how to write an apa methods section, how to write an apa results section, "i thought ai proofreading was useless but..".

I've been using Scribbr for years now and I know it's a service that won't disappoint. It does a good job spotting mistakes”

2024 ARPA-E Fusion Programs Annual Meeting

June 11-12, 2024, seattle, wa, day 1: tuesday, june 11, 2024.

Time	Event
8:00 - 9:00 AM	Registration & Networking Breakfast
9:00 - 9:10 AM	Ahmed Diallo, Program Director, ARPA-E
9:10 - 9:20 AM	Derek Passarelli, Principal Deputy Under Secretary for Science & Innovation, DOE
9:20 - 9:30 AM	Colleen Nehl, Program Manager, DOE Fusion Energy Sciences
9:30 - 10:20 AM	Performer Technical Highlights: Heating Systems and Drivers
10:20 - 10:45 AM	Break
10:45 - 11:05 AM	Developing The Sheared-Flow-Stabilized Z Pinch As A Fusion Device
11:05 - 11:45 AM	Performer Technical Highlights: DT Fuel Cycle
11:45 - 12:45 PM	Lunch
12:45 - 1:05 PM	Pacific Fusion: Goals and Plans
1:05 - 1:20 PM	Fusion T2M Overview
1:20 - 1:35 PM	The Fusion Industry Supply Chain: Opportunities And Challenges
1:35 - 2:05 PM	Performer Technical Highlights: Modeling And Simulation
2:05 - 2:35 PM	Break
2:35 - 2:55 PM	Double the Fusion Power With Spin-Polarized Fuel
2:55 - 3:00 PM	CATF Fusion Program Highlights
3:00 - 4:00 PM	Panel Discussion: Attracting DOD Interest for Fusion Energy Research
4:00 - 6:00 PM	Location: Compass Room
6:00 PM	Adjourn Day 1

Day 2: Wednesday June 12, 2024

Time	Event
8:00 – 9:00 AM	Registration & Networking Breakfast
9:00 – 9:10 AM	Day 2 Opening Remarks
9:10 – 9:40 AM	David Kirtley, CEO, Helion Energy
9:40 – 10:30 AM	Performer Technical Highlights: Fusion Materials
10:30 – 10:50 AM	Break
10:50 – 11:00 AM	Chris Ajemian, Principal, Chris Ajemian Consulting
11:00 – 11:10 AM	ITER: Collaborating with Private Sector Fusion Start-Ups (Recorded Remarks)
11:10 – 12:00 PM	Performer Technical Highlights: Novel Fusion Concepts
12:00 PM – 2:00 PM	BETHE, GAMOW, OPEN 2021 and CREATE Fusion Programs + Industry and Early Career
2:00 - 2:20 PM	Hiroshi Gota, VP of Program Management, TAE Technologies
2:20 - 2:40 PM	Randy Curry, DMTS, Sandia National Laboratories
2:40 - 2:50 PM	Adelaide Giantelli, Chief, State Agreements and Liaison Program Branch, Office of Nuclear Material Safety and Safeguards, NRC
2:50 - 3:00 PM	Ahmed Diallo, Program Director, ARPA-E
3:00 PM	Adjourn Day 2

Performer Information

Program	Project Title	Principal Investigator	Prime Recipient
BETHE	A Simulation Resource Team for Innovative Fusion Concepts	Adam Sefkow	University of Rochester
BETHE	An HTS axisymmetric magnetic mirror on a faster path to lower cost fusion energy	Cary Forest	University of Wisconsin
BETHE	Centrifugal Mirror Fusion Experiment	Carlos Romero-Talamas	University of Maryland
BETHE	Data-enabled Fusion Technology	Craig Michoski	Sapientai LLC
BETHE	Target Formation and Integrated Experiments for Plasma-Jet Driven Magneto-Inertial Fusion	Feng Chu	Los Alamos National Laboratory
BETHE	The Argon Fluoride laser as an enabler for low-cost inertial fusion energy	Matthew Wolford	US Naval Research Laboratory
GAMOW	Advance Castable Nanostructured Alloys for First-Wall/Blanket Applications	Ying Yang	Oak Ridge National Laboratory
GAMOW	EM-ENHANCED HyPOR LOOP FOR FAST FUSION FUEL CYCLES	George Larsen	Savannah River National Laboratory
GAMOW	ENHANCED Shield: A Critical Materials Technology Enabling Compact Superconducting Tokamaks	Lance Snead	Stony Brook University
GAMOW	Fusion Energy Reactor Models Integrator (FERMI)	Vittorio Badalassi	Oak Ridge National Laboratory
GAMOW	High Efficiency, Megawatt Class Gyrotrons for Instability Control of Burning Plasma Machines	Jagadishwar Sirigiri	Bridge 12 Technologies, Inc.
GAMOW	Interfacial-Engineered Membranes for Efficient Tritium Extraction	Colin Wolden	Colorado School of Mines
GAMOW	Plasma Facing Component Innovations by Advanced Manufacturing and Design	Yutai Katoh	Oak Ridge National Laboratory
GAMOW	AMPERE - Advanced Materials for Plasma-Exposed Robust Electrodes	Richard Wirz	Oregon State University
OPEN 2021	Advanced Manufacturing of High-Entropy Alloys as Cost-Effective Plasma Facing Components for Fusion Power Generation	Osman El Atwani	Pacific Northwest National Laboratory
OPEN 2021	Economical Proton-Boron11 Fusion	Nathaniel Fisch	Princeton University
OPEN 2021	Liquid Immersion Blanket: Robust Accountancy (LIBRA)	Kevin Woller	Massachusetts Institute of Technology
OPEN 2021	Longer Wavelength Lasers for Inertial Fusion Energy with Laser-Plasma Instability Control: Machine Learning Optimum Spike Trains of Uneven Duration and Delay (STUD Pulses)	Bedros Afeyan	Polymath Research, Inc.
CREATE	Active-target muon source for muon-catalyzed fusion	Ara Knaian	NK Labs, LLC
CREATE	Advanced Metal Foil Pumps and Integrated Test Environment for the Fusion Fuel Cycle	Adam Rutkowski	Marathon Fusion
CREATE	Highly Efficient Charged Particle Beam Injection into Magnetically Confined Plasmas	Christopher Tully	Princeton University
ET	Laser Driver for Inertial Fusion Energy	Mike Perry	General Atomics

Industry and Early Career Poster Information

Organization	Presenter	Type
Avalanche Energy	Mike Prato	Industry
Lunar Resources	Elliot Carol	Industry
OpenStar Technologies	Thomas Berry	Industry
Proxima Fusion	Francesco Sciortino	Industry
University of Alabama - Huntsville	Andrew Walsten	Early Career

COMMENTS

EXPERIMENT 3: ENERGY || REPORT WRITING
PHYSICS FOR MATRICULATIONhttps://www.youtube.com/channel/UCxufRv3fcM-zbJEISrm3YEg?sub_confirmation=1#SP015 #PHYSICS # SEM1 #MATRICULATION LEVEL #DRWONGPHYSICS
PDF Lab 3 (summer19)
Experiment 3 Conservation of Momentum and Energy 0. Pre-Laboratory Work [2 pts] 1. In Sections 3.1 & 4.1, The Linear Track, what is the purpose of measuring the Average Fraction Lost for the Momentum and Energy? (1 pt) 2. In Sections 3.2.1 & 3.2.2, two different methods are used to estimate the initial velocity of the ball, !
PDF Lab 3: Work, Energy & Power Essentials of Physics: PHYS 101
the speed in the graph, below, under Setup 3. Data Table: Experiment Two, Setup 3 mass of vehicle + double washers (kg) GPE at top of ramp (N•m) Setup 3: speed of car (m/s) Kinetic Energy (J) Efficiency vehicle vehicle+ 1 double washers vehicle + 2 double washers Calculations/Questions (to be answered by all, regardless of setup): 1.
PDF Last Revised on January 8, 2015 Grade: EXPERIMENT 3
mv + m v = mv + m v Equation 3.3 for kinetic energy and i i f f m 1 v 1 + m 2 v 2 = m 1 v 1 + m 2 v 2 Equation 3.4 for momentum. For an inelastic collision, only the momentum equation is valid. 3. Laboratory Work 3.1 The Linear Track Introduction Figure 3.1 For these experiments you will be using a track with carts that have very low friction ...
Project 3
1) On the wall, using the masking tape, mark 25cm, 50cm, 75cm, 100cm and 125cm. 2) Use the scale to measure the mass of the ball. Record the mass in kg in Table 1 your lab report 3) Hold the ball at the 25cm mark and then simply let go of the ball. Do not throw the ball. 4) Allow the ball to bounce one time and record the approximate height ...
26 Science Projects and Experiments To Teach About Types of Energy
Radiant energy is the energy found in electromagnetic waves. Examples of radiant energy can be found in light from the Sun, x-rays, gamma rays, and radio waves. 14. Solar Pizza Box Oven. In the Build a Pizza Box Solar Oven activity, students build a simple solar oven from a pizza box.
PDF Experiment 2: Projectile motion and conservation of energy
Projectile motion. If a point-like object is shot with a certain initial velocity v. 0 in a system with vertical downward gravitational acceleration, g, the kinematical equations for the position of the body are: No acceleration along the horizontal direction with constant velocity. Constant acceleration along the vertical direction motion.
PDF WORK AND ENERGY EXPERIMENT
The kinetic energy of heaviest cart is equal - smaller - grater than the kinetic energy of the other cart. 3. The speed of the heaviest cart is equal - smaller - grater the the speed of the other cart. PART 1 - Work kinetic energy: variable Force Figure 1 Procedure Step 1. Open the data studio file "F-x_v-t.cap" located in the ThawSpace T ...
PDF The Photoelectric effect
excess energy becomes the kinetic energy of the ejected electron. If we assume the intensity of the light is not high enough for electrons to have a very high chance of absorbing more than a single photon then we can combine (1), (2), and (3) to obtain Einstein's equation for the photoelectric effect: eV. stop = hf - E. o (4) Or in terms of ...
PDF Writing A Lab Report
Writing A Lab Report 1 Introduction The lab report is a concise but thorough description of the experiment you performed and the experimental data. There is no bonus for excessive length. In fact, you might be penalized for an overly wordy unorganized report! Neatness, organization and clarity are important.
The Energy Lab
Video Library. The Energy Lab includes a collection of eight short videos that cover basic energy topics. Videos include contextual information explaining why these topics matter to students and ...
PDF Experiment 7: Conservation of Energy
Experiment 7: Conservation of Energy ... similar to Lab 3 (see manual or ask your TA about using this software in this experiment). Using this equipment: Devise an experimental procedure to observe how the potential energy of the spring launcher is ... Summarize your results in your lab report with detailed data tables and create appropriate ...
PDF EXPERIMENT 6: WORK AND ENERGY
Experiment 6: Work & Energy 3. The work done by gravity is W(x ... In addition to the standard elements of a well written lab report described in the introduction to this manual, your report must include: 1) A neat, organized data table. If your laboratory instructor agrees, you may use the table given on the previous page. 2) The energy graphs ...
PDF Experiment 3 Chemical Kinetics
6. Repeat steps 3 through 5 for experiments 2 and 3 and determine: a) The order of the reaction with respect to [KMnO4]. b) The order of the reaction with respect to [H2C2O4]. c) The overall order of the reaction. d) The rate constant. e) The rate of the reaction if you were to mix 30mL of H2C2O4 15mL of KMnO4 5mL of H2O
PDF EE3501, Experiment 1 EE3541, Experiment 3 Power Measurements
• 3P3W: three-phase, three-wire, using channels 1 and 3 • 3P4W: three-phase, four-wire, using all three channels You will also use the oscilloscope with a current probe and a voltage probe to visualize the voltage and current, and to compute the power. 3 Laboratory Experiment Throughout this experiment, the load box fans should be turned on ...
PDF Experiment 3: Electric Fields and Electric Potential
it takes at least 3 minutes to dry!). Make sure that when you shake your pen hard enough so that the metal ball inside mixes up your ink by sliding back and forth inside the pen. You should hear it oscillate. Figure 1: Sample electrode conﬁgurations. Answer the following questions in your lab write-up: 1.
PDF Experiment 3: Projectile Motion Part 1
Part 1: Horizontal Launch (θ0 = 0 )Open the Projectile Motion simulation in your b. owser and select the "Lab" option. Ensure gravity is set to 9.80 m/s2 and th. "air resistance" box is unmarked.Set the initial height of the object as 5m by clicking and dragging th. crosshairs at the back of the cannon.Set the launch angle to 0 by clickin.
How To Write A Lab Report
Introduction. Your lab report introduction should set the scene for your experiment. One way to write your introduction is with a funnel (an inverted triangle) structure: Start with the broad, general research topic. Narrow your topic down your specific study focus. End with a clear research question.
Santa Susana Field Laboratory
Aerial view of the Santa Susana Field Laboratory in the Simi Hills, with the San Fernando Valley and San Gabriel Mountains beyond to the east. The Energy Technology Engineering Center site is in the flat Area IV at the lower left, with the Rocket Test Field Laboratory sites in the hills at the center. (Spring 2005) The Santa Susana Field Laboratory (SSFL), formerly known as Rocketdyne, is a ...
2024 ARPA-E Fusion Programs Annual Meeting
June 11-12, 2024Seattle, WADay 1: Tuesday, June 11, 2024TimeEvent8:00 - 9:00 AMRegistration & Networking Breakfast9:00 - 9:10 AMOpening Remarks, Meeting Overview and ObjectivesAhmed Diallo, Program Director, ARPA-E9:10 - 9:20 AMDOE Leadership RemarksDerek Passarelli, Principal Deputy Under Secretary for Science & Innovation, DOE9:20 - 9:30 AMUpdate from The Fusion Energy Sciences ...