Deck 2: Motion Along a Straight Line

A) 2.5 h
B) 2.0 h
C) 1.75 h
D) 1.5 h
E) 1.25 h

A) All four
B) Only 1
C) Only 2 and 3
D) Only 2, 3, and 4
E) None of them

A) I
B) II
C) III
D) IV
E) V

A) the magnitude of its average velocity over the interval
B) the distance covered during the time interval divided by the time interval
C) one-half its speed at the end of the interval
D) its acceleration multiplied by the time interval
E) one-half its acceleration multiplied by the time interval.

A) constant displacement
B) steadily increasing acceleration
C) steadily decreasing acceleration
D) constant velocity
E) steadily increasing velocity

A) 40 km/h
B) 45 km/h
C) 53 km/h
D) 60 km/h
E) 80 km/h

A) x_i = 4m, x _f = 6m
B) x_i = -4m, x _f = -8m
C) x_i = -4m, x _f = 2m
D) x_i = -4m, x _f = -2m
E) x_i = -4m, x _f = 4m

A) Only if it really is a point-like particle.
B) You can always treat a moving object as if it were a point-like particle.
C) Only if the object is moving with constant acceleration.
D) Only if all parts of the object are moving in the same direction and at the same rate.
E) This question has no physical meaning.

A) x_i = 4m, x _f = 6m
B) x_i = -4m, x _f = -8m
C) x_i = -4m, x _f = 2m
D) x_i = 4m, x _f = -2m
E) x_i = -4m, x _f = 4m

A) 3 m/s
B) -3 m/s
C) 12 m/s
D) -12 m/s
E) Need additional information.

A) 0.75 s
B) 1.3 s
C) 1.8 s
D) 5.3 s
E) 7.3 s

A) -6 m/s
B) -11 m/s
C) -21 m/s
D) 9 m/s
E) 18 m/s

A) I
B) II
C) III
D) IV
E) V

A) 0 km/h
B) 25 km/h
C) 50 km/h
D) 100 km/h
E) cannot be calculated without knowing the acceleration

A) L²/T, L³/T²
B) L/T², L²/T
C) L/T, L/T²
D) L³/T, T²/L
E) none of these

A) x₂ - x₁
B) x₁ - x₂
C) x₁ + x₂
D) x₁
E) x₂

A) 0 km/hr
B) 50 km/hr
C) 100 km/hr
D) 200 km/hr
E) cannot be calculated without knowing the acceleration

A) Your instantaneous velocity was never zero.
B) Your average velocity was zero.
C) Your acceleration was constant.
D) Your net displacement was not zero.
E) Your average speed was zero.

A) 5 m/s
B) -5 m/s
C) 11 m/s
D) -11 m/s
E) 1 m/s

A) moving with zero acceleration
B) climbing the hill
C) accelerating
D) stationary
E) moving at about 45° with respect to the x axis

A) 0 m/s²
B) -73 m/s²
C) -30 m/s²
D) -9.8 m/s²
E) 9.2 x 10³ m/s²

A) 0 m/s; 12 m/s²
B) 0 m/s; 24 m/s²
C) 27 m/s; 0 m/s²
D) 27 m/s; 12 m/s²
E) 27 m/s; 24 m/s²

A) The car's speed increases, then it stops, and reverses
B) The car accelerates at 6 m/s² for the first 2 s
C) The car is moving for a total time of 12 s
D) The car accelerates at -12 m/s² for the last 4 s
E) The car returns to its starting point when t = 9 s

A) I
B) II
C) III
D) IV
E) V

A) 23 m/s²
B) 15 m/s²
C) -4.0 m/s²
D) -12 m/s²
E) -24 m/s²

A) Yes, but only if it is not moving at all.
B) No, if its velocity is zero its acceleration must also be zero.
C) Yes, all objects with zero velocity have nonzero acceleration.
D) No, if its acceleration is not zero its velocity cannot be zero.
E) Yes, but its velocity must only be zero for an instant.

A) No, this is not possible.
B) Yes, speed will always decrease if acceleration is positive.
C) Yes, this is possible if the initial velocity is zero.
D) Yes, this is possible if the initial velocity is negative.
E) Yes, this is possible but only if the object is moving in two dimensions.

A) its speed continues to increase all the way down.
B) its speed reaches a maximum value and then decreases.
C) its speed reaches a maximum value and then doesn't change.
D) its speed reaches a maximum value, decreases, and then increases again.
E) Any of these things could happen.

A) its velocity must be positive
B) its velocity must be negative
C) it must be slowing down
D) it must be speeding up
E) none of the above must be true

A) -8 m/s²
B) 4 m/s²
C) -10 m/s²
D) 10 m/s²
E) -13 m/s²

A) All four
B) Only 1 and 2
C) Only 2 and 3
D) Only 3 and 4
E) None of them

A) moving with zero acceleration
B) traveling downhill
C) traveling below ground-level
D) reducing speed
E) traveling in the reverse direction to that at point P

A) They are identical.
B) Instantaneous speed is the rate at which the instantaneous velocity is changing.
C) Instantaneous speed is the magnitude of the instantaneous velocity.
D) They are unrelated.
E) Instantaneous speed is the initial speed minus the final speed.

A) the acceleration of the particle is 6 m/s²
B) t cannot be negative
C) the particle follows a parabolic path
D) each second the velocity of the particle changes by 9.8 m/s
E) none of the above

A) positive and negative, respectively
B) negative and positive, respectively
C) negative and negative, respectively
D) negative and zero, respectively
E) positive and zero, respectively

A) 2.5 cm/s²
B) 4.0 cm/s²
C) 5.0 cm/s²
D) 6.0 cm/s²
E) 6.67 cm/s²

A) A body having velocity east and acceleration east
B) A body having velocity east and acceleration west
C) A body having zero velocity and non-zero acceleration
D) A body having constant acceleration and variable velocity
E) A body having constant velocity and variable acceleration

A) 0 m/s²
B) -4.0 m/s²
C) -9.8 m/s²
D) -28 m/s²
E) 49 m/s²

A) I
B) II
C) III
D) IV
E) V

A) 64 s
B) 32 s
C) 16 s
D) 8.0 s
E) 4.0 s

A) bt³
B) bt³/3
C) 4bt²
D) 3bt²
E) bt^3/2

A) 7 m/s north
B) 7 m/s south
C) 43 m/s north
D) 20 m/s north
E) 20 m/s south

A) acceleration
B) change in acceleration
C) speed
D) change in velocity
E) displacement

A) 4 m
B) 12 m
C) 24 m
D) 36 m
E) 60 m

A) During the interval from 1.0 s to 3.0 s
B) At t = 3.5 s
C) At t = 4.0 s
D) At t = 5.0 s
E) At no other time less than or equal to 5 s.

A) is 0
B) is -2 m/s
C) is 2 m/s
D) is -4 m/s
E) cannot be calculated unless the initial position is given

A) the slope of an acceleration-time graph
B) the slope of a velocity-time graph
C) the area under an acceleration-time graph
D) the area under a velocity-time graph

A) 1.3 m/s²
B) 2.5 m/s²
C) 4.9 m/s²
D) 9.8 m/s²
E) There is not enough information to answer this question.

A) 1 m/s
B) 12.5 m/s
C) 25 m/s
D) 50 m/s
E) 160 m/s

A) 0
B) 12 m
C) 14 m
D) 25 m
E) 59 m

A) that increases with time
B) that is constant
C) that decreases with time
D) of 3 m/s
E) of 3 m/s²

A) 15 m
B) 31 m
C) 62 m
D) 85 m
E) 100 m

A) 18 m
B) 24 m
C) 36 m
D) 54 m
E) 144 m

A) 12 m
B) 14 m
C) 24 m
D) 36 m
E) 48 m

A) 2.0 s
B) 3.0 s
C) 5.0 s
D) 6.0 s
E) The time cannot be calculated since the speed is not constant

A) 5 s
B) 10 s
C) 15 s
D) 20 s
E) 25 s

A) IV only
B) IV and V only
C) I, II, and III only
D) I and II only
E) I and IV only

A) positive during both ascent and descent
B) negative during both ascent and descent
C) negative during ascent and positive during descent
D) positive during ascent and negative during descent
E) none of the above

A) 1 m/s
B) 2 m/s
C) 3 m/s
D) 5 m/s
E) 6 m/s

A) the body falls 9.8 m during each second
B) the body falls 9.8 m during the first second
C) the speed of the body increases by 9.8 m/s during each second
D) the acceleration of the body increases by 9.8 m/s² during each second
E) the acceleration of the body decreases by 9.8 m/s² during each second

A) downward during both ascent and descent
B) downward during ascent and upward during descent
C) upward during ascent and downward during descent
D) upward during both ascent and descent
E) downward at all times except at the very top, when it is zero

A) 4.9 m
B) 9.8 m
C) 15 m
D) 20 m
E) 25 m

A) 7.0 m/s up
B) 15 m/s down
C) 15 m/s up
D) 85 m/s down
E) 85 m/s up

A) 3 s
B) 4 s
C) 6 s
D) 18 s
E) 36 s

A) 0.00 m
B) 270 m
C) 330 m
D) 480 m
E) none of these

A) its velocity and acceleration are both upward
B) its velocity is upward and its acceleration is downward
C) its velocity and acceleration are both downward
D) its velocity is downward and its acceleration is upward
E) its velocity and acceleration are both decreasing

A) 4.9 m
B) 9.8 m
C) 19.4 m
D) 38.8 m
E) none of these

A) The maximum velocity of the feather is 9.8 m/s
B) The acceleration of the feather decreases until terminal velocity is reached
C) The acceleration of the feather remains constant during the fall
D) The acceleration of the feather increases during the fall
E) The acceleration of the feather is zero

A) Its acceleration is constant.
B) If its initial velocity is upwards, it will reach a maximum height and then begin to fall.
C) If its initial velocity is zero, its position below its starting point can be calculated knowing only how long ago it began falling.
D) Its velocity will always be zero at some point along its path.
E) Its velocity changes by the same amount every second.

A) The average velocity during the first second of time is 4.9 m/s
B) During each second the object falls 9.8 m
C) The acceleration changes by 9.8 m/s every second
D) The object falls 9.8 m during the first second of time
E) The acceleration of the object is proportional to its weight

A) 40 m
B) 45 m
C) 50 m
D) 55 m
E) 60 m

A) 4.9 m.
B) 9.8 m.
C) 29.4 m
D) 34.3 m.
E) 39.8 m.

A) The acceleration of gravity is not constant.
B) Heavier objects are accelerated faster by gravity than lighter objects are.
C) Air resistance has a larger effect on feathers than on rocks.
D) Rocks can't fly.
E) Gravity has little effect on a feather.

A) zero
B) g, down
C) g, up
D) 2g. down
E) 2g, up

A) 125 m
B) 128 m
C) 245 m
D) 250 m
E) 255 m

A) 9.8 m/s² down
B) 0 m/s²
C) 9.8 m/s² up
D) 19.6 m/s² up
E) none of the above

A) 2160 m/s
B) 1760 m/s
C) 206 m/s
D) 196 m/s
E) 186 m/s

A) A
B) B
C) C
D) D
E) E

A) 29.4 m
B) 58.8 m
C) 118 m
D) 353 m
E) 706 m