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- 1. Open Ended
Please write your first and second name. Be careful to make sure you spell it as it would appear in the school register. Thank you
- 2. Multiple Choice
Who is your physics teacher?
Mr Tolley
Mr Palmer
Ms Loh
- 3. Multiple Choice
What is the best description of the relationship shown in this graph?
In this graph, the relationship between force and extension is linear.
In this graph, the relationship between force and extension is non-linear.
In this graph, the relationship between force and extension is directly proportional.
In this graph, there is no relationship between force and extension.
- 4. Multiple Choice
What is the best description of the relationship shown in this graph?
In this graph, the relationship between force and extension is linear.
In this graph, the relationship between force and extension is non-linear.
In this graph, the relationship between force and extension is directly proportional.
In this graph, there is no relationship between force and extension.
- 5. Multiple Choice
What is the best description of the relationship shown in this graph?
In this graph, the relationship between force and extension is linear.
In this graph, the relationship between force and extension is non-linear.
In this graph, the relationship between force and extension is directly proportional.
In this graph, there is no relationship between force and extension.
- 6. Multiple Choice
What is the best description of the relationship shown in this graph?
In this graph, the relationship between force and extension is linear.
In this graph, the relationship between force and extension is non-linear.
In this graph, the relationship between force and extension is directly proportional.
In this graph, there is no relationship between force and extension.
- 7. Multiple Choice
What is the best description for this graph? Tick all the statements you agree with:
The start of this graphs shows that force and extension are non-linear.
The start of this graphs shows that force and extension are directly proportional.
After approximately 4N, force and extension are non-linear.
After approximately 4N, force and extension are directly proportional.
- 8. Multiple Choice
The graph shows the relationship between force and extension as a spring is extended. What is the name of point A?
Point A is the optimum force.
Point A is the limit of extension.
Point A is the limit of force.
Point A is the limit of proportionality
- 9. Multiple Choice
The graph shows the relationship between force and extension as a spring is extended. What is another name for point A?
Point A is the elastic limit
Point A is the elastic summet
Point A is the plastic limit
Point A is the extension limit
- 10. Multiple Choice
If a spring is extended beyonds it elastic limit, what two things does this mean for the spring?
The spring will no longer return to its original length.
The spring will no longer obey Hookes Law.
The spring will no longer extend.
The spring will bounce back to its original length.
- 11. Multiple Choice
In which side of the graph does the spring obey Hooke's law?
To the left of point A
To the right of point A
- 12. Multiple Choice
A weight is placed on a spring. Which distance, A or B, represents the extension of the spring?
'A' is the extension
'B' is the extension
- 13. Multiple Choice
The data in the graph represents the extension of a spring. Calculate the spring constant using the equation:
Spring constant = Force ÷ Extension
2 N/m
0.5 N/m
60 N/m
20 N/m
- 14. Multiple Choice
[Level 4+ Question] The data in the graph represents the extension of a spring. Calculate the spring constant using the equation:
Spring constant = Force ÷ Extension
2.5 N/m
0.4 N/m
7 N/m
5 N/m
- 15. Multiple Choice
[Level 5+ Question] Which out of springs K, L or M from the graph have the highest spring constant.
K
L
M
- 16. Multiple Choice
[Level 5+ Question] Which out of springs K, L or M from the graph have the lowest spring constant.
K
L
M
- 17. Multiple Choice
[Level 6+ Question] Looking at the graph, at what point does this spring stop obeying Hooke's law:
10N
15N
20N
It is always obeying Hooke's law
- 18. Multiple Choice
[Level 6+ Question] Calculate the spring constant of the spring shown in the graph.
1.25 N/m
0.80 N/m
0.91N/m
56.82N/m
- 19. Multiple Choice
[Level 7+ Question] A 10N weight was placed on this spring and then removed. Describe and explain what then happens to the spring.
The spring will return to its original length because the weight was not great enough to stretch it beyond the spring's elastic limit.
The spring will return to its original length because the weight stretched it beyond the spring's elastic limit.
The spring will not return to its original length and will be permanently deformed. This is because the weight was not great enough to stretch it beyond the spring's elastic limit.
The spring will not return to its original length and will be permanently deformed. This is because the weight stretched it beyond the spring's elastic limit.
- 20. Multiple Choice
[Level 7+ Question] A 20N weight was placed on this spring and then removed. Describe and explain what then happens to the spring.
The spring will return to its original length because the weight was not great enough to stretch it beyond the spring's elastic limit.
The spring will return to its original length because the weight stretched it beyond the spring's elastic limit.
The spring will not return to its original length and will be permanently deformed. This is because the weight was not great enough to stretch it beyond the spring's elastic limit.
The spring will not return to its original length and will be permanently deformed. This is because the weight stretched it beyond the spring's elastic limit.
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