1. Student Research Project
Year 10 Science
Bede Polding College

2. Welcome to the Student Research Project Presentation
This presentation has been designed to:
Help you in organising your SRP this year
Provide information and copies of important sheets involved with the SRP.

3. What Do I Need to Do? For your SRP, you will need to:
Conduct a first-hand experiment independently
Complete a logbook, detailing your scientific process
Write an experimental report on your experiment
The next page outlines the important due dates for your SRP, and procedures if you are absent on these days. Please note these down carefully.

4. A Reminder About Due Dates and Procedures
Your SRP can be divided into FOUR stages.
Handing in your Proposal Form
Handing in your logbook for the FIRST LOGBOOK CHECK.
Handing in your logbook for the SECOND LOGBOOK CHECK.
Final submission of your report and logbook.

5. A Reminder About Due Dates and Procedures
1. HANDING IN YOUR PROPOSAL FORM
When is it due?
The Proposal Form is due on the 11th February 2015
Where do I hand it in?
The Proposal From is to be handed to your class teacher during
the normal Science lesson. It is NOT to be put into the
Assessment Box in the Student Foyer.
What happens if I am absent on that day?
If you are absent, your will need to show your teacher your
Proposal Form on the next day, if possible, or the next Science
lesson at the latest.
What is the penalty for handing it in late?
Three days late = Afternoon detention

6. A Reminder About Due Dates and Procedures
2. HANDING IN YOUR LOGBOOK FOR THE FIRST LOGBOOK CHECK
When is it due?
The first logbook check is on the 20th February 2015
Where do I hand it in?
You should show your logbook to your class teacher during the
normal Science lesson. Your logbook is NOT to be put into the
Assessment Box in the Student Foyer.
What happens if I am absent on that day?
If you are absent, your will need to show your teacher your
logbook on the next day, if possible, or the next Science
lesson at the latest.
What is the penalty for handing it in late?
Three days late = Afternoon detention

7. A Reminder About Due Dates and Procedures
3. HANDING IN YOUR LOGBOOK FOR THE SECOND LOGBOOK CHECK
When is it due?
The second logbook check is on the 6th March 2015
Where do I hand it in?
You should show your logbook to your class teacher during the
normal Science lesson. Your logbook is NOT to be put into the
Assessment Box in the Student Foyer.
What happens if I am absent on that day?
If you are absent, your will need to show your teacher your
logbook on the next day, if possible, or the next Science
lesson at the latest.
What is the penalty for handing it in late?
Three days late = Afternoon detention

8. A Reminder About Due Dates and Procedures
4. FINAL SUBMISSION OF YOUR REPORT AND LOGBOOK.
When is it due?
The final submission of the report and logbook is on
16th March 2015
Where do I hand it in?
Your class teacher will collect the report and logbook during
the normal Science lesson. They are NOT to be put into the
Assessment Box in the Student Foyer.
What happens if I am absent on that day?
If you are absent, you will need to submit your report and
logbook on your first day returning to school. You will then
need to complete an ‘Illness and Misadventure’ form (available
from the student foyer) and submit it, along with a Doctor’s
Certificate explaining your absence, to Mr Lans or Mrs Gavin.

9. A Reminder About Due Dates and Procedures
4. FINAL SUBMISSION OF YOUR REPORT AND LOGBOOK.
What is the penalty for handing it in late?
Late submission of EITHER the SRP Report or the Log book
Will results in an afternoon detention being issued immediately.
Three days late = ‘N Award’ Warning Letter.
PLEASE NOTE
If your SRP Report is not typed, it will not be accepted.
If your SRP Report is glued into your Log book it will not be accepted.
If your SRP Report or Log book does not show a serious attempt
at the work, it will not be accepted.

10. There Are Prizes!!
The Flannery Prize This prize is given to the student or students with the most outstanding Student Research Projects. The prize is a $100 voucher.

11. Let the Journey Begin!
The following slides outline your SRP journey in its four stages.
Please follow each step carefully, and use the hyperlinks on the right if you need any extra information.

12. STAGE 1 – COMPLETING YOUR PROPOSAL
1. Receive your SRP from your teacher
Need an extra copy of the SRP?
2. Decide on a problem
Need some help deciding on a problem?
3. Fill in a Proposal Form
Need an extra copy of a Proposal Form?
4. Get parents to sign it
What are independent and dependent variables?
5. Show teacher Proposal Form by 11th February 2015
YES
6. Make improvements suggested by teacher NO
GO TO STAGE 2
7. Has your teacher approved your Proposal Form?
YES

13. STAGE 2 – GETTING ORGANISED
8. Set up your log book
What should my log book look like?
9. Paste Proposal Form in the front of the log book
How to get great marks for your logbook
10. Write an Aim, Hypothesis & Method in the log book
What should be included in my Aim, Hypothesis & Method?
11. Begin a trial run of your experiment. Write rough results in your log book
12. Evaluate the trial run of your experiment
How do I try and improve my experiment?
13. Decide on improvements your could make to your experiment
GO TO STAGE 3
14. Show teacher your log book by 20th February 2015

14. STAGE 3 – WRITING YOUR REPORT
15. Conduct the experiment with your improvements included.
16. Repeat your experiment to make sure your results are correct
Why do I need to repeat my experiment?
17. Record the results of all your trials in a table
How do I draw a good table?
18. Draw a graph (or graphical representation) of your results
How do I draw a good graph?
19. Write a rough copy of a discussion in your log book
What should be included in my discussion?
20. Show teacher your log book by 6th March 2015
GO TO STAGE 4

15. STAGE 4 – FINISHING YOUR REPORT
21. Type a NEAT COPY of your Aim and Method.
Can I see an Annotated Report already done?
22. Present your results in a table and graph if possible
What is the Marking Criteria for the SRP?
23. Type a NEAT COPY of your discussion
What should be included in my conclusion?
24. Type a conclusion for your report
25. HAND IN your log book and report to your teacher by 16th March 2015
Now…CELEBRATE!!
QUIT POWERPOINT

16. Need an Extra Copy of the SRP?
If you are accessing this PowerPoint on the School Network, download a copy of the SRP by clicking on the link below: SRP Booklet 201
If you would like to access this PowerPoint from the School Website, you can go to the following link:
Here you will find copies of the SRP, Proposal Form and PowerPoint, should you need to download another copy.
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17. Need Some Help Deciding on a Problem?
Having trouble deciding? Try doing this:
Think about the things in which you are interested.
Select one interest and brainstorm some experiments related to this interest. Consider what expert help or specialised equipment you have access to.
Select one experiment and:
design a procedure for the experiment
identify any equipment you will need
predict how long it will take
identify the independent, dependent and controlled variables in the experiment.
4. If the experiment seems suitable, write up a Proposal Form. Otherwise, think of another experiment.
NEED SOME IDEAS FOR EXPERIMENTS?
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18. Suggested Experiment Ideas – Page 1
Can exercise improve a person's memory?
Which type of fabric best blocks the sun’s rays?
How does surface area affect how things react?
Is there a relationship between absorption and thickness of paper towel?
Make a boat to go across the pool. Investigate ways to make it go faster/further?
Which paper is the strongest?
How much water can different soils hold?
Investigate methods of noise control.
Investigate the effect of air resistance on velocity.
Investigate the effects of storage temperatures on batteries.
Compare the strengths of building materials.
Compare methods of preventing corrosion.
Investigate the factors affecting the growth of crystals.
Investigate the biodegradability of plastics.
Investigate the effect of salt on seed germination.
Compare the effectiveness of blankets, doonas and sleeping bags.
NEED SOME
MORE IDEAS FOR EXPERIMENTS?
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19. Suggested Experiment Ideas – Page 2
Compare the volume of carbon dioxide produced by Alka-Seltzer tablets.
Investigate the absorption of water by crystals.
Investigate the spacing between a line of dominoes and the time taken for them to topple.
Compare plant growth in various potting mixes.
Investigate the effectiveness of stain-removal products.
Compare strength of different coloured hair.
Investigate the effect of microwaves on seeds.
Does the shape of the outlet hole affect the rate at which water flows out of a bottle?
Does sugar make plants grow faster?
Does cold water or hot water freeze faster?
How well do seedlings grow using different colours instead of white light?
How good are the different sunscreens at protecting cloth from fading in sunlight?
How good are simple vegetable dyes (e.g. beetroot) at resisting fading in sunlight?
NEED SOME
MORE IDEAS FOR EXPERIMENTS?
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20. Suggested Experiment Ideas – Page 3
What conditions will enable a pinhole camera to make a good quality photograph?
Which household substances can be best combined to make an electrical battery?
What shape of parachute is best at slowing an object falling to the ground?
How much weight will various fibres support before they break?
Which material makes the best insulator?
Which battery lasts the longest?
How much weight can a plastic garbage bag/or shopping bag hold?
Which sticky tape is strongest?
Which type of cup keeps water warm for the longest?
Investigate different fabrics and static charge
Investigate factors affecting the setting of jelly.
How can cut flowers be made to last longer in a vase?
Will a hot tennis ball bounce higher than a cold tennis ball?
Who has the fastest reactions, males or females?
NEED SOME
MORE IDEAS FOR EXPERIMENTS?
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21. Suggested Experiment Ideas – Page 4
Which shape of paper aeroplane flies the furthest?
Which brand of cling wrap is the strongest?
Which is the best way to keep take-away food hot?
Which types of seedlings show the quickest geotropic or phototropic effects?
Do some potting mixes hold more water than others?
Which foods compost most quickly?
How can you speed the composting process?
What shape rolls down an incline most quickly?
Which colours absorb the most heat?
How different are the weather conditions in a garden compared to those on an oval?
NEED SOME
MORE IDEAS FOR EXPERIMENTS?
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22. Suggested Experiment Ideas – Page 5
Does the speed of reflexes change with age?
Is there any variation in reflexes between boys and girls, or between sporting people and sedentary people?
Do students who play computer games have quicker reflexes?
How much water is in different fruits?
What is the most effective home insulation?
How much of your garbage is packaging?
Is a fibre twice as thick going to be twice as strong?
Do more expensive batteries last longer or perform better?
How do different dissolved substances change the boiling point of water?
Investigate the effects of detergents, pH, and/or varying concentrations of salts on selected plants.
Compare the fat content of various sausages.
Investigate whether the use of aluminium foil makes a difference in cooking times.
Compare the efficiency of washing detergents containing enzymes with those without enzymes.
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23. Need an Extra Copy of the Proposal Form?
If you are accessing this PowerPoint on the School Network, download a copy of the Proposal Form by clicking on the link below: SRP Proposal Form student files on G drive
If you would like to access this PowerPoint from the School Website, you can go to the following link:
Here you will find copies of the SRP, Proposal Form and PowerPoint, should you need to download another copy.
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24. What are Independent and Dependent Variables?
The INDEPENDENT VARIABLE is the variable that you are CHANGING. When drawing a graph, the independent variable is always on the x-axis.
The DEPENDENT VARIABLE is the variable that you are MEASURING. When drawing a graph, the independent variable is always on the y-axis.
Example:
A student conducts an experiment to measure the effect of different soil types on the growth of plants.
The student is CHANGING the soil type, so soil type is the independent variable
The student is MEASURING plant height, so plant height is the dependent variable.
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25. What Should my Log Book look like?
To help assess your planning and work throughout the project you will need to keep a Project log book. This is the small exercise book that was listed in the stationery requirements list.
Your log book is like a diary in which you record a brief summary of what you do each time you do some work on your assignment.
It should include everything that you do which is related to your research project. This includes planning, equipment lists and advice that you have obtained.
Record your failures as well as your successes.
Your log book is your original work. It is meant to be a rough copy.
LIKE TO SEE A PHOTO OF A GOOD LOG BOOK?
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26. What Should my Log Book look like?
LIKE TO SEE MORE PHOTOS OF A GOOD LOG BOOK?
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27. What Should my Log Book look like?
LIKE TO SEE MORE PHOTOS OF A GOOD LOG BOOK?
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28. What Should my Log Book look like?
LIKE TO SEE MORE PHOTOS OF A GOOD LOG BOOK?
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29. What Should my Log Book look like?
LIKE TO SEE MORE PHOTOS OF A GOOD LOG BOOK?
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30. What Should my Log Book look like?
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31. How to get Great Marks for your Logbook
Use this checklist to help attain maximum marks for your log book.
Have you glued your Science Student Research Project Proposal Form in the front of your log book?
Have you had your Science Student Research Project Proposal Form signed by:
Yourself?
Your parents?
Your teacher?
Is your log book well organised?
Have you dated all entries?
Have you shown detailed planning for your experiment?
Have you included details of trial runs and/or modifications made during your experiment?
Have you included rough copies of your results in an appropriate format?
Have you recorded measurements for an appropriate number of trials?
Have you written comments in your log book evaluating the success of your experiment and considering improvements to your experimental design?
Is your log book signed and dated at least twice by your teacher?
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32. What Should be Included in my Aim, Hypothesis & Method?
The aim describes the problem being investigated in the experiment. The aim should be written as one sentence, and should include a verb near the beginning of the sentence. Good aims also include the independent variable and the dependent variable.
Examples:
a) To investigate the effect of colour on the absorption of heat.
b) To observe whether temperature effects the height of strawberry plants.
WANT TO KNOW ABOUT THE METHOD?
WANT TO KNOW ABOUT THE HYPOTHESIS?
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33. What Should be Included in my Aim, Hypothesis & Method?
The hypothesis is your educated guess on the answer to this problem. It is based on informed opinion (your experience, research, expert advice, logic), it is not just a wild guess. It should be written as a simple statement.
Examples:
a) The darker the colour the more it will absorb heat.
b) As the temperature increases, the plant height will decrease.
WANT TO KNOW ABOUT THE METHOD?
WANT TO KNOW ABOUT THE AIM?
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34. What Should be Included in my Aim, Hypothesis & Method?
The method is written as a procedure with the steps in the order they occur. Each step is clear and starts with a verb such as measure, connect, place, heat etc.
It should be clear in the method what is being changed (independent variable), what is being measured (dependent variable) and how all other variables are being kept constant (controlled variables)
The method explains what the control will be (if there is one), how many times the experiment will be repeated and how accurate measurements will be made.
A method usually includes a scientific diagram to assist in the explanation of how the equipment is set up. If it is not obvious in the diagram any equipment required should be listed
WANT TO KNOW ABOUT THE AIM?
WANT TO KNOW ABOUT THE HYPOTHESIS?
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35. How Can I Improve My Experiment?
There are many ways that you may improve your experiment. You should consider the accuracy, reliability and validity of your experiment
The ACCURACY of your experiment refers to how well your results agree with known data or other published results.
To comment on accuracy, you should see what others have done on the Internet and see if your results agree with their results. If they do, you can say that your experiment is ACCURATE.
To improve the accuracy of your experiment, you could:
Use computerised equipment that can measure temperature or length more accurately.
Using equipment with smaller units on it. e.g. measuring a length in mm is better than measuring the length in cm.
WANT TO KNOW ABOUT VALIDITY?
WANT TO KNOW ABOUT RELIABILITY?
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36. How Can I Improve My Experiment?
There are many ways that you may improve your experiment. You should consider the accuracy, reliability and validity of your experiment
The RELIABILITY of your experiment refers to how consistent your results are when your experiment is repeated.
To comment on reliability, you should consider whether your have repeated your experiment. If you have repeated your experiment and your results are consistent when you compare them, you can say that your experiment is RELIABLE.
To improve the reliability of your experiment, you could:
Perform further repeats of your experiment and compare the results to ensure they are consistent.
WANT TO KNOW ABOUT VALIDITY?
WANT TO KNOW ABOUT ACCURACY?
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37. How Can I Improve My Experiment?
There are many ways that you may improve your experiment. You should consider the accuracy, reliability and validity of your experiment
The VALIDITY of your experiment refers to how well your experiment measures what it is supposed to measure.
To comment on validity, you should consider whether you have controlled ALL variables except for the independent variable. If you have controlled all of the variables possible, you can say that your experiment is valid.
To improve the validity of your experiment, you could:
Change something about your experiment to help you control variables even more. This could be using a different piece of equipment that would allow you to be sure that a certain part of your experiment is exactly the same for each trial.
WANT TO KNOW ABOUT ACCURACY?
WANT TO KNOW ABOUT RELIABILITY?
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38. Why Do I Need to Repeat my Experiment?
How do you know whether the results you are collecting are correct?
When you design an experiment, you should always repeat the experiment at least once, to ensure that the results are consistent. This tells you that the method is well-designed and is a big part of good experimental design. When the results of an experiment are the same each time you repeat it, we say that the experiment is RELIABLE.
WANT TO KNOW MORE ABOUT RELIABILITY?
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39. How Do I Draw a Good Table?
Below if a checklist for drawing a good table:
Title
Make it descriptive.
Table
Draw the table using a ruler.
The table should be enclosed.
Columns
Have a heading for each column.
Your independent variable should be the left-most column.
Your dependent variable should be in the column(s) to the right.
Include the units as part of the heading,
not with every measurement.
Ensure your numbers are easy to read.
Include all repeats of your experiment in your table.
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40. How Do I Draw a Good Graph?
Below if a checklist for drawing a good line graph:
Title
Axes
Draw axis lines with a ruler
Write label for each axis
Show units of measurement
Number each axis in equally sized intervals
Choose intervals that are easy to work with
Put the independent variable on the x axis
Put the dependent variable on the y axis
Points
Plot each point accurately
Use an small X to mark each point
Show the trend of the points with a line of best fit
Draw graph in pencil
Make it as large as possible for greater accuracy
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41. What Should Be Included in my Discussion?
The discussion should:
Describe patterns or trends in the results .
Explain WHY we got this pattern or trend.
Discuss, how confident can we be in these findings?
Are the results VALID (does it test what was intended)?
Is the experiment RELIABLE (will it produce the same results if repeated)? Were there any problems with the experiment? How can it be improved?
Were the measurements ACCURATE? Would the equipment used be able to pick up very small differences in characteristic being measured?
Discuss, how are these findings useful?
Identify and discuss, what were the problems with your experiment?
Identify how could you improve your experiment?
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42. Can I see an Annotated Report already done?
To the right is an annotated SRP report. You can also download a PDF of this report by clicking on the following link:
SEE THE NEXT PAGE OF THE REPORT
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43. Can I see an Annotated Report already done?
To the right is an annotated SRP report. You can also download a PDF of this report by clicking on the following link:
SEE THE NEXT PAGE OF THE REPORT
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44. Can I see an Annotated Report already done?
To the right is an annotated SRP report. You can also download a PDF of this report by clicking on the following link:
SEE THE NEXT PAGE OF THE REPORT
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45. Can I see an Annotated Report already done?
To the right is an annotated SRP report. You can also download a PDF of this report by clicking on the following link:
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46. What Should Be Included in my Conclusion?
Your conclusion should give a very brief summary of your experimental findings, and be linked to your aim.
Your conclusion should say whether your hypothesis was supported or not.
Your conclusion should be written as no more than 3 sentences.
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47. SRP Marking Criteria (Page 1 of 3)
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48. SRP Marking Criteria (Page 2 of 3)
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49. SRP Marking Criteria (Page 3 of 3)
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