science fair projects tips for a successful project
TRANSCRIPT
SCIENCE FAIR PROJECTS
Tips for a Successful Project
Selecting a Topic
Web pages 1. Use a search engine (Yahoo, etc.)2. Use Science Corner on the Vermilion Parish
web site (www.vrml.k12.la.us)
School library Public library University Library Write to science services
How to Identify a Good Topic Topic has to be narrow, specific. Topic must be realistic, practical (do you
have access to the equipment, etc.). Topic must survive constraints from
rules and regulations. Topic must match your interests!
Types of Projects
Models Most have limited creativity! An example of a creative model would be a
design for a more efficient airplane that would include experiments supporting the theory behind the model design.
Types of Projects
Surveys Be aware of rules! Before drawing conclusions use math
(statistics) to analyze your results. Use data tables and/or graphs over a period
of time in order to use extrapolation.
Type of Projects
A repeat from the past An example would be an illustration of a
scientific law. This type of project might lack creativity! Look for an original application rather than
a repeat. View things from a different angle! For example: write a computer program to
simulate Mendel’s genetics.
Types of Projects
Original Investigation This is the most difficult to plan or conduct! It requires more library research, more
critical thinking and lab work, but is also the closest to a scientific approach.
Planning For Your Project
Narrow your topic For example: instead of studying the effects of
acid rain on a pond, investigate the effect of an acidic environment on a specific plant in a lab situation.
Planning For Your Project
Document what you read Use index cards in a library search! For Books: Record author’s name, title,
publisher, date of publication For Magazines: Record author’s name,
title, journal name, publisher, volume number, and page number(s).
For an Internet Source: Record author and URL.
Example of a Scientific Bibliography
Magazines
Young, M., “Pinhole Optics,” Applied Optics,10, 2763 (1971).
Fitch, J. M., ”The control of Luminous environment” Scientific American, 219, 190 (Sep .1968).
Prigo, Robert, Bachman, C.H., “some observations on the process of walking,” Physics teacher.14. 360 (1976).
Example of a Scientific BibliographyBooks
Goldstein, Herbert, Classical Mechanics, Addisson-Wesley, Reading, MA (1950), p.308.
Uvarov, Boris, Grasshoppers and locusts: a handbook of general acridology, Cambridge University Press, London vol.1 (1977) p.479.
Plan Your Equipment
Be realistic! Cut down on expenses. If you are an exceptionally talented high
school student, you might be invited upon recommendation of your teacher to be mentored by a university professor. Therefore, you will have access to a university lab under your mentor’s supervision.
Plan Your Equipment
If you can construct some of your own equipment to gather data, this is a plus because you demonstrate creativity.
You may make the measurements at school by making arrangements with a teacher.
Plan for Safety
Avoid disease causing organisms, explosive gases, and/or dangerous chemicals!
If your project presents any safety concerns, make certain to work under the supervision of a qualified scientist.
Always share your project with your science sponsor at school! He or she will inform you about safety or refer you to someone who can advise you.
Plan Your Time
Keep a book where you will record your data and an agenda, list of supplies, bibliography, etc.
Plan your time for each part of your project.
Set a realistic timeline, as well as a deadline.
This will train you in learning responsibility and organization.
Realistic Planning: Timeline
Duration What Date due
Selecting topic
Refining topic
Preparing plans
Conducting experiments
Evaluating results
Preparing reports
Prepare the display Board
Presenting the project
Scientific Method
Hypothesis (Your Purpose) Should be one, clear and brief sentence based on
the information gathered during research. The hypothesis is followed by a brief statement explaining or justifying this purpose.
Do not consider your experiment or project a failure if your investigation does not confirm your hypothesis. Just say that your hypothesis is not verified in your conclusion. The important point is to arrive at the truth. You may suggest further research or include a second phase in your project if the time permits.
Your Experiment
Outline steps: keep design as simple as possible (the more complicated, the greater the chance of error).
Types1) qualitative: careful observations without getting involved in measurement or statistical analysis.2) quantitative: measurements and collection of numerical data (use the metric system); best type of data because it permits you to use mathematics to establish relations; not based on opinions, but facts.
Doing Your Experiment
Include a control: vary the experimental conditions; if the outcome is caused by another factor, this will allow you to single out the results.
Keep accurate and regular records. Objectivity: Do not discard a result that is
not in agreement with the rest of the study. Lone results may be due to faulty or contaminated samples, math errors, or give a clue to some interesting discovery.
Results
Keep a notebook for recording any information, observations and data (in tables, graphs, etc.). Do not use scrap paper - use photographs, drawings, diagrams, etc.
You must never commit results to memory.
Your Conclusion
Must come directly and solely from the data in your notebook.
If you cannot arrive at any conclusion from your data, find a different approach to your experiment.
Must be clear and concise. Do not hesitate to present all the conclusions your data can support (especially if your project has several phases).
Do not reach a conclusion that is not supported by your data!
The conclusion should suggest a direction for further study.
What To Include In Your Report A Title Do not be vague. Include both the dependent and
independent variables in your title. In an engineering project, the title
might be the name of your design or your design versus its performance in a given environment.
The Body Look at the format used in “Scientific
American.” Your whole report might be handwritten
or typed. If you have access to a computer, it is best to type (your note book can be handwritten). If you type, use double space, 1” margin on an eleven by eight and half inch sheet of paper.
The Abstract The abstract is the summary of your
scientific report.
Make certain that you write the abstract only after you write the report so you may stick to the essentials.
State Your Purpose Be brief! You want to familiarize the
reader with the problem you are intending to solve.
Explain what impact your investigation may have on scientific or technical knowledge.
Explain Your Methods This is your procedure. The materials you use. This is the step-by-step investigation.
Follow-Up With Results These are your observations. Your observations will be recorded in sentences
and paragraphs. Be clear concise simple and accurate.
You may use photos or schematic illustrations. Record in tables and/or graphs.
Graphs take a primordial place in the way the scientific community communicates information .
They are almost always included in any scientific report.
Organization of Data in a Table
The independent variable is written in the first column.
For example: when you walk, the distance you walk is changing as a function of time (D = f (t). Time is the independent variable and distance is the dependent variable.
The time data will be in the first column and the distance data in the second column.
Note: As shown in the next slide, if an SI unit is named after a person, it has to be capitalized. The unit of current is named after the scientist Ampere and the unit of potential is named after the scientist Volta. The equation is V = R (I). The amount of volts depend on the amount of current.
Example of a Data Table Note: the independent variable is placed in the first column.
Current (Amperes) Potential (Volts)
0.12 1.2001
0.14 1.3358
0.18 1.7871
0.20 2.0004
0.25 2.4715
Example of a Graph
Growth rate of Beans Plant
y = 0.2264x + 0.0629
R2 = 0.9966
y = 0.4734x + 0.7195
R2 = 0.994
0
1
2
3
4
5
6
7
8
9
0 2 4 6 8 10 12 14 16
Time (days)
Gro
wth
(cm
)
Roots (cm) Stem (cm)
Example of a Graph
% Light at Pecan Island on Dec 21 2000 and on June 21 2002
0
10
20
30
40
50
60
70
80
90
100
0 5 10 15 20 25 30
Time (hr)
% L
igh
t (R
ela
tiv
e S
ca
le)
% light on December 21 % light on June 21
Analyze Your Results Establish relationships or proportionality
factors. Determine how data are mathematically
related. The variables are directly proportional
(straight line: y = mx +b). The variable are inversely proportional
(hyperbola: y = k/x). The variables vary as a square function
(parabola: y = ax2 + bx+ c).
Conclude Your Report
Use your analysis to establish conclusive statements.
The conclusion should always include suggestions for further research to solve the problem or look at it from a different angle. (What new problems or questions were uncovered by the project?)
Include Your References
This is your bibliography. (See examples on Slide # 10 and Slide #11.)
Your Board Display
The Exhibit Size is Limited! 76 cm (30 inches) deep, front to
back. 122cm (48 inches) wide, side to side. 274 cm (108 inches) high, floor to
top.
Projects exceeding these dimensions are automatically disqualified!
Presenting Your Project
Introduce yourself. Do not mention your school. Give the title of your project.
Explain your purpose. Summarize any background information. Discuss briefly how you developed an interest in the topic.
Explain how you proceeded. Use your display to support your explanations.
Examples of Displays
Examples of Displays
Examples of Displays
Examples of Displays
Presenting your Project
Emphasize results and conclusions. Point to your exhibit to support your logic. This will help as you present your project logically and sequentially.
Tell about applications or suggestions for further study or suggestions to improve your project.
Invite questions from the judges.
Additional Tips
Practice makes perfect!!!!!Practice in front of friends, teachers,
parents.Do not antagonize the judges! Do not chew gum, wear extravagant
clothing, etc.People are impressed with good manners!
Additional Tips
Do not stand between the exhibit and the judges, but on the side. Give them a copy of your abstract, peak their interest, and maintain interest by periodic eye contact.
Point to lab apparatus, charts, and photographs on display. This will allow you to describe your project in an appropriate sequence. Do not read directly from your project. You should know what you are talking about! This is your project!
Judging Criteria
Scientific Content and Application Does the project have a clear hypothesis?
Is the problem specific and well stated? Are all variables recognized and defined? If a control was necessary, was it included? Is the data sufficient and relevant?
How do you communicate scientific thought? Do you use scientific language, tables ,charts, and/or graphs? Is your analysis based upon mathematical relationships? How did you arrive at your conclusions?
Did it include ideas for further research? Does it contain a bibliography?
Judging Criteria
Creativity and OriginalityDid you construct a piece of equipment?
How did you get the idea for your project?
Judging Criteria
ThoroughnessAre your conclusions based on a single experiment or do you have enough repetitions to obtain sufficient data?
Did you look at all possible approaches?