Kaleiopuu
Elementary Science Fair Project Guide
(Student
Packet)
Projects
Due- 3/12/13
TABLE OF CONTENTS
Tips for Parents
.....................................................................................................
2
My Science Fair Experiment
.................................................................................
3
My Science Fair Project Timeline
.......................................................................... 5
Components of a Science Fair Project
.................................................................. 6
Science Divisions
..................................................................................................
8
Suggestions for Science Fair Investigations
......................................................... 10
Example of Science Fair Judging Form
.............................................................. 13
Reference Science Fair Books And Periodicals
...................................................16
TIPS FOR PARENTS
1. Be
positive about your child’s work.
2. Be
honest with your student. If you don’t know the answer, tell your child that
you don’t know, but offer to help locate a source of information that may help.
3. Help your
child look around for ideas. Investigate, libraries, Internet, etc.,
4. Help
seek out people to help – other adults, teachers, other professionals
5. Help
your child collect and save materials. Inexpensive materials found around the
home often work the best.
6. Allow
your student to “mess around” with materials without your intervention.
7. Allow
your student time for thinking, exploring, and doing the experiment.
8. Stress
“how-to” skills – e.g., observing, rather than memorizing facts.
9.
Examine issues with moral consequences – e.g., animals used for
experimentation.
10. Help
your student keep a daily log of their research activities.
11. Go to
the Science Fair and take pictures of experiments for future ideas.
12.
Assist as needed, but let your student do the work.
MY SCIENCE FAIR EXPERIMENT
What
do I do?
Choose
your topic. Get ideas from your teacher, parents, friends, science books,
newspaper articles, television, Internet, etc. You are not to experiment on any
human or animal without the prior permission of your teacher. Collect and put
together your ideas and materials you will need. Follow the Scientific Method
as much as possible.
What
is the Scientific Method?
Scientific
Method refers to the process that scientists go through when solving a problem.
It
involves the following steps:
1. State
the Problem: Write the problem clearly, perhaps in the form of a question.
2.
Present a Hypothesis: Describe your educated guess of the possible solution
(your
prediction
of the outcome of your experiment) and justify your reasoning.
3.
Present a Procedure: Describe how you will go about solving the problem.
Include a list of all the materials needed. Do the experiment.
4.
Present the Results: Tell what happened in words. Show what you have found out
using tools like charts, tables, graphs, diagrams and pictures.
5. State
your conclusions: Write a paragraph that tells whether the experiment solved
your problem. Did it prove or disprove your hypothesis? If your hypothesis was
incorrect, what might be some of the reasons?
How do
I display my experiment?
Your
experiment should be placed on a display board that stands by itself, such as
on a three-sided display, as shown below. It should not be over 48 inches wide
when open.
Example
of display layout:
1. Graphs and Charts
2. Photographs or drawings and diagrams of your
work.
3. Notebooks may be placed in front of the project.
4. K-3 only: Equipment may be placed on table in
front of display. Do not include liquids or
smelly items.
5. Grades 4-6: No equipment or apparatus.
6. Student’s and teacher’s names should be written
only ON THE BACK of the display.
Summary:
Choose an experiment.
Have the experiment approved by your teacher.
Follow the guidelines and safety rules set forth by your
teacher or as described in this
packet.
Gather all materials needed and do the experiment, following
the scientific method as
closely
as possible.
Illustrate the experiment and organize your results.
Keep an observation log (if needed).
MY SCIENCE FAIR PROJECT TIMELINE
Science
Fair- 3/13/13
1. Choose a problem to investigate.
2. Do some background research and get advice.
3. Develop a hypothesis.
4. Decide on the procedures you will use.
5. Make a list of materials you will need and
gather materials.
6. Conduct your investigation and collect data.
7. Organize your data or results.
8. Draw your conclusions.
9. Keep a project notebook (log).
10. Proofread your work.
11. Design your exhibit.
12. Construct your visual aids and exhibit
backdrop.
13. Turn in your project.
14. Present your project.
COMPONENTS OF A SCIENCE FAIR PROJECT:
THE “SCIENTIFIC METHOD”
1.
Title/Problem Put it
into a question format.
Draw on ideas and wonderings you have had or written down
during discussions of classroom experiments.
2.
Introduction
(Optional,
as needed)
What gave you the idea?
Who helped you?
What kind of research did you do?
Include background information needed to understand the
problem
(this can
also be part of the hypothesis – see examples below).
3.
Hypothesis It is
a prediction (educated guess) about the possible outcome.
It must be written BEFORE doing your experiment.
It helps you refine your ideas and shows your thought
process.
If…then statements can be a helpful way to phrase a
hypothesis.
Examples:
a) “I think that plants need sunlight
because I noticed that plants on the sunny side of my house are larger than the
plants on the shady side. If this is true, then if I place one plant in a sunny
spot and one plant in a dark closet, I predict the one in the dark will not
grow.” (Early elem.)
b) “When we were doing an experiment with
electromagnets, we discovered that wrapping more wire around the nail made the
magnet stronger. This made me wonder if there were other ways to increase the strength
of an electromagnet. Besides wire coils, an electromagnet needs an iron core. I
think that if I wrap 25 coils around a larger nail, then it will attract more
paperclips than 25 coils on a smaller nail.” (4th
grade)
Notice
that these hypotheses have the variable and the idea for how to do the
experiment already built into them. It is important to understand that the
point of the experiment is NOT to prove you are right. It is fine if the results
of your experiment do not support what you thought. Many important science
discoveries and advances have been made because scientists were forced to
rethink their predictions when things did not turn out the way they had
expected. Scientific inquiry is a process more than a method.
4.
Materials List of all materials needed (including things like scissors,
containers, tape, etc.) and include the amount of each item.
5.
Procedures Should
be written as detailed step-by-step instructions.
Should include control when applicable (provides comparison,
shows that outcome was a result of changing one variable and not a random occurrence
that would have happened regardless.)
Example: If you are trying to prove
chemical reactions happen more quickly if the temperature is higher, you need
to run the experiment with room temperature and cold temperature ingredients as
well. (5th grade)
6.
Results Charts
Tables
Graphs
Diagrams or photographs
7.
Conclusion Refer
back to your original question and examine the actual outcome
compared
to your hypothesis.
Discuss any problems you had.
Offer an explanation or further research or investigations
that might be done if your hypothesis turned out to be incorrect.
Suggest possible real world application for the results of
your test.
SCIENCE DIVISIONS
Biological
Science: includes all living things and how they are affected by the
environment.
Examples
of topics:
·
Ecology
o
Adaptation of Plants
·
Conservation
o
Balance of Nature Human Body
- Physical Science/Earth Science: includes the areas of physics and chemistry. Earth
- Science includes topics related to the land, sea, atmosphere, and space surrounding the earth.
- Mathematics is the language used to discuss these sciences.
Examples
of topics:
·
Machines
·
Heat
·
Temperature
·
Molecular Motion
·
Forces
·
Engines
·
Magnetism
·
Matter
·
Levers
·
Light
·
Color
Astronomy
·
Photography
·
Number Systems
·
Metals
·
Electricity
·
Rockets
·
Elements and Components
·
Electronics
·
Sound
·
Music
·
Crystals
·
Synthetic Materials
·
Molecular Structure
·
Rocks / Minerals
·
Aerodynamics
·
Solutions
·
Air Currents
·
Air Pollution
·
Solar Energy
·
Conservation
SOME SUGGESTIONS FOR SCIENCE FAIR
INVESTIGATIONS:
1. What is the effect of wind on the amount of
water that a plant needs? (Biological Science)
2. How can you get kidney beans to grow fastest?
(Biological Science)
3. How can you affect the shape of a magnetic
field? (Physical Science)
4. How high do you have to raise a smooth board
to get a block to slide down it? How does covering the block with felt or
sandpaper or other materials affect that height? How does changing the weight of
the block affect height? (Physical Science)
5. What affects how fast an ice cube melts in
air? How many ways can you get it to melt faster than it does in air at room
temperature? (Physical Science)
6. What are the effects of detergent on water?
(Physical Science)
7. Which magnifies newsprint more – clear water
drop or a soapy water drop? (Physical Science)
8. What is the biggest shadow you can make with
a piece of paper 8 ó inches by 11 inches? What is the smallest shadow you can
make with the same piece of paper? (Physical Science)
9. What is the effect of turning young plants
upside down as they grow? (Biological Science)
10. How can you get seeds to germinate fastest?
(Biological Science)
11. Which seeds germinate fastest? Do little
seeds germinate faster than big seeds? (Biological
Science)
12. What species of seedling can survive longest
in just damp cotton wool in the dark? (Biological Science)
13. Does a water-pick clean your teeth better
than a standard toothbrush? (Biological Science)
14. How do different deodorants affect skin and
clothes? (Biological Science or Physical Science)
15. What is the fastest way to cool a cup of hot
water? (Physical Science)
16. How can you grow the biggest crystals of
alum? (Physical Science)
17. How does light affect plants?
18. Do sweet, salt, and bitter substances taste
the same to everyone?
19. How can you affect the time it takes for
bread to rise?
20. What happens when you soak egg shells in
vinegar? What about when you soak them in lemon juice or other kitchen
chemicals? (Physical Science)
21. What kind of fruit rots fastest?
22. Do plants grow faster if you talk (or sing)
to them regularly? (Biological Science)
23. Do people who play sports regularly have the
same heart rate as people who don’t? Do sports
people recover from exercise more quickly than
less active people? (Biological Science)
24. Will seeds sprout faster in soil or in a
plastic bag with damp cotton wool? (Biological Science)
25. What is the fastest way to get food to rot?
Warm or cool places? Damp or dry? Light or dark? In the presence of other moldy
things? (Biological Science)
26. Do preservatives in manufactured foods
really work? Try different ways to get “Twinkies” to rot!
27. Which gum keeps its flavor the longest?
Which blows the best bubbles? What is most stretchy? Which loses the most
weight after you chew it? (The weight lost is the sugar your saliva dissolved away.)
28. How can you make suds last longest? Compare
shampoo to dishwashing detergent. Compare
different brands of shampoo to each other and
different brands of dishwashing detergent to each
other. (Physical Science)
29. Investigate all the different effects of
static electricity. What is the effect of static electricity on paper, plastic,
different kinds of breakfast cereal? (Physical Science)
30. Which brand of paper towel stays strongest
when wet? (Physical Science)
31. Which freezes fastest - Coke, Kool-Aid,
strong salt water, or weak salt water? (Physical Science)
32. How can you stop cut apples from going
brown? (Biological Science)
33. What mixtures will a filter separate?
(Physical Science)
34. How can you make the best cup phones? (Physical
Science)
35. How do lenses and pieces of glass bend
light? What else can bend light? (Physical Science)
36. What is the best way to keep steel from
rusting? (Physical Science)
37. Which filtering systems work best to clean
dirty water? (Physical Science)
38. How does the color of light affect plant
growth? (Biological Science)
39. What conditions affect the growth of mold?
(Biological Science)
40. How does temperature influence yeast cell
reproduction? (Biological Science)
41. How does the angle of an inclined plane
affect the work to lift an object? (Physical Science)
42. Which surfaces provide the least amount of
friction? (Physical Science)
43. Which fruit and vegetable juices make good
indicators for acids and bases? (Physical Science)
44. How does water depth affect water pressure?
(Physical Science)
45. Which materials insulate best against the
cold? (Physical Science)
46. Which mouthwashes retard the growth of
bacteria? (Biological Science)
47. Do bacteria grow better in the light or
dark? (Biological Science)
48. Compare two parts of your body to see which
normally harbors more bacteria. (Biological Science)
49. Find the best way to wash a finger and
remove the most bacteria. You could try paper towel drying compared to air
drying. You could try the effect of soap compared to air drying. You could try
the effect of soap compared to no soap. (Biological Science)
50. Compare the amount of bacteria in soil
samples from two different places.
51. Does toilet paper stop bacteria getting
through? Try touching agar with a naked finger and then with a finger wrapped
in one layer of toilet paper. (Biological Science)
52. Which materials conduct electricity? Try
different kinds of liquids too. (Physical Science)
53. How does the shape of a reflective surface
affect the reflection of light? (Physical Science)
54. What is the relationship between
magnification and the focal point of a lens? (Physical Science)
55. Does the color of a container affect the
amount of light energy absorbed? (Physical Science)
56. How do offspring reflect parents’ traits?
(Biological Science)
57. What part(s) of a plant can be used to
propagate a plant? (Biological Science)
58. Which design of paper plane will fly the
furthest? (Physical Science)
59. Who can react faster to a bell - children or
adults? (Biological Science)
60. Can people identify different kinds of
Kool-Aid by taste alone? (Biological Science)
61. What is the effect of detergent on the life
in pond water? (Use containers of pond water – don’t pollute a pond.)
(Biological Science)
62. What effect does salt have on the properties
of water? (Example: Acidity lathering ability with soap, dissolving ability of
sugar, freezing and boiling points.) (Physical Science)
63. What affects the success of making sponge
cake? (Physical Science)
64. What affects the rate of the baking soda and
vinegar reaction? (Physical Science)
What will judges be looking for?
A sample judging form is included on the next 2
pages to give you an idea of the questions they will ask themselves as they look
at projects.
Example of Science Fair Judging Form
Project No.
General Instructions
Award a number from 1 to 10 to each category, 1
being the lowest points possible, and10 being the highest points possible. The
questions listed under each category are there to help you determine the number
of points to award, but be flexible.
Ideally, all children could receive a perfect
score. It is quite possible for a number of projects to be equally good. Don’t
try to determine the best project. Award points as merited. Be kind, but don’t
give all 100’s.
Scientific Method
1. Is the problem clearly stated in the form of
a question?
Is there a reasonable hypothesis offered?
Is the reason for the hypothesis explained, if
appropriate?
Remember that K-3 projects may be demonstrations,
while 4-6 projects must involve problem solving. ____/10
2. Is the procedure explained in terms the child
and you can understand? ____/10
3. Are the graphs and charts labeled properly?
(If there is no possible way to use graphs or
charts, give a 10. If there is
no way to quantify things, they should have a
graphic display of results – look to that and award points accordingly.)
____/10
4. Is the conclusion supported by the results?
Did the child compare the hypothesis with the
conclusions?
Is there an attempt to establish a relationship
between cause and effect? ____/10
5. Was the experiment controlled? Were there
comparisons that proved that the cause of the result was not accidental or it
was not what would have happened under any conditions, not just the
experimental ones?
Be aware some types of experiments are more
difficult to control than ones dealing with batteries or freezing points. Do
not downgrade children if there was a reasonable attempt at controls for such experiments.
Were enough trials made to verify results? ____/10
Scientific Accuracy
1. Did
the student give credit to sources of information obtained, if any?
2. Is the
factual information correct and are the figures calculated accurately?
3. Is
the spelling correct? ____/10
Knowledge
1. Is it
obvious that the student understands the material and has learned something?
2. Does
the overall project show logical development? ____/10
Neatness and Attractiveness
1. Are
the labels and title neat and legible?
2. Is the
handwriting in the report as neat and legible as you could expect for this age
level? (Do not downgrade a K-2 child who may have motor coordination to develop
for writing this paper imperfectly in comparison to a child who prints easily
or one who had a parent do it (e.g., a kindergarten child who prints backward
letters or numbers should not be penalized.)
3. Is
the project as attractive as might be expected of this age child? (Do not downgrade
if it is acceptable – e.g., a beautiful, extraordinary project should not
necessarily get more points than an acceptable one. Only downgrade unacceptable
attempts.) ____/10
Time and Effort, Level of Difficulty
Award the
child from 1 to 10 based on apparent time and effort he/she spent on this
project. ____/10
Overall Impression
Award the
child form 1 to 10 based on your overall impression of the project. ____/10
Total Score ____ /100
Judge Sign-off: ________________________________
Comments:
____________________________________________________________________________________________________________________________________
REFERENCE SCIENCE FAIR BOOKS
AND PERIODICALS
Barr,
George Research Ideas for Young Scientists, McGraw Hill Book Company, 1958.
Barr,
George More Research Ideas for Young Scientists, McGraw, Hill Book
Company,
1961.
Barr,
George Research Adventures for Young Scientists, New York, McGraw
Hill Book
Company, 1964
Benre,
Ronald Ideas for Science Fair Projects, Arco Publishing Company, Inc.,
1963.
DeBruin,
Jerry Cardboard Carpentry, Carthage 11, Good Apple, Inc., 1979
DeBruin,
Jerry Creative Hands-On Science Experiments, Carthage 11, Good
Apple,
Inc., 1980 (Chapters 8 and 9).
Lafferty,
Peter Burning and Melting Hands-On Science, Gloucester Press,
1990.
Lafferty,
Peter Magnets to Generate Hands-On Science, Gloucester Press,
1990.
Markle,
Sandra Science Mini-Mysteries, Atheneum, New York 1988.
Stone,
George K. More Science Projects You Can Do, Englewood Cliffs, New Jersey,
Prentice-Hall, 1981
VanDeman,
Barry A. and Ed McDonald
Nuts and
Bolts: A Matter of Fact Guide to Science Fair
Projects,
Harwood Heights, Illinois, The Science Man Press, 1980.
Science
and Children, January, 1983
(Science
Fairs are highlighted in this issue.)
These are
older references. You will find more up-to-date books at your favorite
bookstore or online – the internet can be a valuable source of information.
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