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Test your basic knowledge |
AP Physics C: Mechanics
Start Test
Study First
Subjects
:
science
,
ap
,
physics
Instructions:
Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can
study here
.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.
This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.
1. Conservative forces
?²=?0²+2a??
PE=-GMm/r
Work done is irrespective of path taken - Spring force - gravitational force
md²x/dt²=-kx
2. Constant acceleration (no time)
F=?p/?t
t=?L/?t
v²=v0²+2a?x
W=?KE
3. Force (radial)
F=mv²/r
g=9.8m/s² g=32ft/s²
W=?F???x
KE=½I?²
4. Gravitational potential energy
?F=0 ?t=0
?=v/r
??=?t+½at²
PE=-GMm/r
5. Equilibrium
I=mr²
ME=½kA²
?F=0 ?t=0
F=µFN
6. Gravitational force
?v=at
?a??b=ABcos?
F=-GMm/r²
F=mv²/r
7. Rotational inertia (sphere)
??=?t+½at²
I=½mr²
F=mv²/r
I=?mr²
8. Simple harmonic motion (velocity)
?=v(g/L)
?=v(k/m)
v=-?Acos(?t+?)
Momentum is conserved - Kinetic energy is not conserved
9. Simple harmonic motion (position)
?=v/r
x=Acos(?t+?)
?x=vt+½at²
If ?F=0 then ?p=0
10. Potential energy (spring)
?a??b=ABsin?
PE=½kx
a=-?²Acos(?t+?)
?=v(k/m)
11. Angular acceleration
a=a/r
?=v(g/L)
?=v/r
PE=-GMm/r
12. Work (integral)
t=?F??r
W=?F
?=v(g/L)
?v=at
13. Work
PE=mgh
F=mv²/r
W=?F???x
KE=½mv²
14. Parellel axis theorem
?=v(k/m)
?²=?0²+2a??
v=-?Acos(?t+?)
I=I0+mh²
15. Simple harmonic motion (acceleration)
Work done is dependent on path taken - Frictional force - most applied forces
a=-?²Acos(?t+?)
?a??b=ABcos?
KE=½mv²
16. Torque (angular momentum)
PE=-GMm/r
?t=Ia
I=I0+mh²
t=?L/?t
17. Constant acceleration (position)
v=-?Acos(?t+?)
a=-?²Acos(?t+?)
I=½mr²
?x=vt+½at²
18. Kinetic energy (rotational)
KE=½I?²
Momentum is conserved - Kinetic energy is not conserved
J=?F
??=at
19. Work (kinetic energy)
Work done is irrespective of path taken - Spring force - gravitational force
W=?KE
?=x/r
?²=?0²+2a??
20. Impulse
L=I?
Momentum is conserved - Kinetic energy is conserved
F=?p/?t
?J=??p
21. Freefall
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22. Arc length
s=?r
-dMu=Mdv
W=?KE
?a??b=ABcos?
23. Constant circular acceleration (no time)
?²=?0²+2a??
I=I0+mh²
ME=½kA²
v=-?Acos(?t+?)
24. Angular momentum
?J=??p
?²=?0²+2a??
PE=-GMm/r
L=I?
25. Inelastic collisions
f=1/T
F=?p/?t
Momentum is conserved - Kinetic energy is not conserved
v²=v0²+2a?x
26. Rotational inertia (disc)
PE=mgh
g=9.8m/s² g=32ft/s²
I=½mr²
v=-?Acos(?t+?)
27. Impulse (integral)
?=x/r
?a??b=ABcos?
J=?F
f=1/T
28. Differential equation of motion (spring SHM)
md²x/dt²=-kx
ME=½kA²
?v=at
Work done is irrespective of path taken - Spring force - gravitational force
29. Shells
Work done is dependent on path taken - Frictional force - most applied forces
Objects inside of hollow shells experience no net gravitational force from the mass composing the shell
a=a/r
x=Acos(?t+?)
30. Constant circular acceleration (position)
-dMu=Mdv
??=?t+½at²
F=-kx
I=½mr²
31. Dot product
?a??b=ABcos?
Work done is dependent on path taken - Frictional force - most applied forces
F=mv²/r
Only acting force is gravity - Apparent 'weightlessness'
32. Gravity
KE=½I?²
If ?F=0 then ?p=0
g=9.8m/s² g=32ft/s²
??=?t+½at²
33. Conservation of momentum
Work done is irrespective of path taken - Spring force - gravitational force
If ?F=0 then ?p=0
F=-kx
a=a/r
34. Angular velocity
I=I0+mh²
W=?KE
?=v/r
?a??b=ABcos?
35. Angular velocity (pendulum SHM)
L=I?
v=-?Acos(?t+?)
PE=-GMm/r
?=v(g/L)
36. Torque (force analog)
PE=-GMm/r
Only acting force is gravity - Apparent 'weightlessness'
?t=Ia
g=9.8m/s² g=32ft/s²
37. Kinetic energy
I=mr²
W=?t????
KE=½mv²
Momentum is conserved - Kinetic energy is conserved
38. Frequency/Period
?=v(g/L)
F=-kx
If ?F=0 then ?p=0
f=1/T
39. Rotational Inertia
I=mr²
?J=??p
?²=?0²+2a??
PE=½kx
40. Non-conservative forces
v²=v0²+2a?x
F=-GMm/r²
f=1/T
Work done is dependent on path taken - Frictional force - most applied forces
41. Rockets
-dMu=Mdv
KE=½I?²
a=-?²Acos(?t+?)
?=x/r
42. Constant acceleration (velocity)
?=x/r
?F=0 ?t=0
f=1/T
?v=at
43. Force
F=mv²/r
?=v/r
?=v(k/m)
?F=ma
44. Constant circular acceleration (velocity)
?x=vt+½at²
W=?F???x
??=at
Momentum is conserved - Kinetic energy is conserved
45. Angular position
If ?F=0 then ?p=0
I=?mr²
?=x/r
?x=vt+½at²
46. Frictional force
?²=?0²+2a??
W=?F
L=I?
F=µFN
47. Mechanical energy (SHM)
Only acting force is gravity - Apparent 'weightlessness'
?v=at
t=?L/?t
ME=½kA²
48. Work (angular)
Momentum is conserved - Kinetic energy is not conserved
W=?t????
x=Acos(?t+?)
W=?F
49. Potential energy (gravity)
PE=-GMm/r
PE=mgh
?=v(g/L)
J=?F
50. Force (momentum)
g=9.8m/s² g=32ft/s²
md²x/dt²=-kx
a=-?²Acos(?t+?)
F=?p/?t