Question 1

The period of a simple pendulum in a grandfather clock on another planet is 1.66 s.What is the acceleration due to gravity on this planet? Assume that the length of the pendulum is 1.00 m. A)14.3 m/s² B)13.3 m/s² C)15.7 m/s² D)17.2 m/s²

Accepted Answer

The period of a simple pendulum is given by:T = 2π√(L/g)where T is the period, L is the length of the pendulum, and g is the acceleration due to gravity.We can rearrange this equation to solve for g:g = 4π²L/T²Plugging in the given values, we get:g = 4π²(1.00 m)/(1.66 s)² = 14.3 m/s²Therefore, the acceleration due to gravity on this planet is 14.3 m/s².

Question 2

A mass on a spring has an angular oscillation frequency of 2.81 rad/s.The mass has a maximum displacement (when t = 0 s)of 0.232 m.If the spring constant is 29.8 N/m,what is the potential energy stored in the mass-spring system when t = 1.42 s?

A)0.350 J
B)0.256 J
C)0.329 J
D)0.399 J

0.350 J

Accepted Answer

The potential energy stored in the mass-spring system is given by:$$U = \frac{1}{2}kA^2\cos^2(\omega t)$$where:* k is the spring constant* A is the maximum displacement* $\omega$ is the angular oscillation frequency* t is the timePlugging in the given values, we get:$$U = \frac{1}{2}(29.8 N/m)(0.232 m)^2\cos^2(2.81 rad/s 	imes 1.42 s)$$$$U = 0.350 J$$Therefore, the correct answer is A.

Question 3

A rotating merry-go-round has an angular velocity of 0.184 rad/s.Find the period of rotation of the merry-go-round.&#10;A)34.1 s&#10;B)5.43 s&#10;C)13.6 s&#10;D)3.91 s

Accepted Answer

The period of rotation is the time it takes for the merry-go-round to complete one full rotation. The angular velocity is the rate at which the merry-go-round is rotating, measured in radians per second. The period of rotation can be calculated using the formula:T = 2π/ωwhere T is the period of rotation and ω is the angular velocity.In this case, the angular velocity is 0.184 rad/s. Substituting this value into the formula, we get:T = 2π/0.184 rad/s ≈ 34.1 sTherefore, the period of rotation of the merry-go-round is approximately 34.1 seconds.

Question 4

An object undergoing simple harmonic motion has an amplitude of 2.3 m.If the maximum velocity of the object is 10 m/s,what is the object's angular frequency?&#10;A)4.4 rad/s&#10;B)4.8 rad/s&#10;C)3.5 rad/s&#10;D)4.0 rad/s

Accepted Answer

The maximum velocity in simple harmonic motion is given by vmax = Aω, where A is the amplitude and ω is the angular frequency. Solving for ω gives ω = vmax / A = 10 m/s / 2.3 m = 4.35 rad/s, which rounds to 4.4 rad/s.

Question 5

A 5.7 kg block attached to a spring executes simple harmonic motion on a frictionless horizontal surface.At time t = 0 s,the block has a displacement of -0.70 m,a velocity of -0.80 m/s,and an acceleration of +2.7 m/s².The amplitude of the motion is closest to:

A)0.81 m
B)2.7 m
C)1.0 m
D)1.1 m
E)1.2 m

Accepted Answer

The amplitude of the motion is the maximum displacement from the equilibrium position. The block has a displacement of -0.70 m at time t = 0 s, so the amplitude is 0.70 m.

Question 6

A child on a swing set swings back and forth.If the length of the supporting cables for the swing is 4.9 m,what is the period of oscillation?&#10;A)4.4 s&#10;B)4.8 s&#10;C)5.3 s&#10;D)5.7 s

Accepted Answer

The period of a simple pendulum is given by the formula T = 2π√(L/g), where L is the length of the pendulum and g is the acceleration due to gravity (approximately 9.8 m/s²). Substituting L = 4.9 m, T ≈ 2π√(4.9/9.8) ≈ 4.4 s.

Question 7

An object undergoing simple harmonic motion has a maximum displacement of 6.2 m at t = 0.0 s.If the angular frequency of oscillation is 1.6 rad/s,what is the object's displacement when t = 3.5 s?&#10;A)4.8 m&#10;B)5.6 m&#10;C)3.7 m&#10;D)3.1 m

Accepted Answer

The displacement of the object undergoing simple harmonic motion can be given by the equation:
x = A*cos(ωt)
where A is the amplitude, ω is the angular frequency and t is the time.
Given that A = 6.2m and ω = 1.6 rad/s
So, when t = 3.5s 
x = A*cos(ωt) = 6.2*cos(1.6*3.5) = 4.8 m (approx) 
Therefore, the best choice is A) 4.8 m.

Question 8

The wheels on a particular moving car rotate 486 times per minute.Find the rotational period of the tires.&#10;A)0.123 s&#10;B)0.002 s&#10;C)0.148 s&#10;D)0.172 s

Accepted Answer

The rotational period is the time for one complete rotation. With 486 rotations per minute, the period is 60 seconds divided by 486, which is approximately 0.123 seconds.

Question 9

A 0.25 kg harmonic oscillator has a total oscillation energy of 4.0 J.If the oscillation amplitude is 20.0 cm,what is the oscillation frequency?&#10;A)4.5 Hz&#10;B)1.4 Hz&#10;C)2.3 Hz&#10;D)3.1 Hz

Accepted Answer

The oscillation frequency is given by:$$f = \sqrt{\frac{k}{m}}$$where k is the spring constant and m is the mass. The spring constant is given by:$$k = \frac{4.0 J}{(0.20 m)^2} = 100 N/m$$Therefore, the oscillation frequency is:$$f = \sqrt{\frac{100 N/m}{0.25 kg}} = 4.5 Hz$$

Question 10

A 0.39 kg block on a horizontal frictionless surface is attached to a spring whose force constant is 570 N/m.The block is pulled from its equilibrium position at x = 0 m to a displacement x = +0.080 m and is released from rest.The block then executes simple harmonic motion along the x-axis (horizontal).When the displacement is x = 0.057 the kinetic energy of the block is closest to:

A)0.90 J
B)0.84 J
C)0.95 J
D)1.0 J
E)1.1 J

Accepted Answer

The correct answer is A because the kinetic energy of the block is maximum when the displacement is zero.

Question 11

A 3.7 kg block on a horizontal frictionless surface is attached to a spring whose force constant is 450 N/m.The block is pulled from its equilibrium position at x = 0 m to a displacement x = +0.080 m and is released from rest.The block then executes simple harmonic motion along the x-axis (horizontal).The maximum elastic potential energy of the system is closest to:

A)1.4 J
B)1.3 J
C)1.6 J
D)1.7 J
E)1.8 J

Accepted Answer

The answer of A 3.7 kg block on a horizontal...

Question 12

A leaky faucet drips 40 times in 30.0 s.What is the frequency of the dripping?&#10;A)1.3 Hz&#10;B)0.75 Hz&#10;C)1.6 Hz&#10;D)0.63 Hz

Accepted Answer

The answer of A leaky faucet drips 40 times in...

Question 13

A mass m = 8.0 kg is attached to a spring and allowed to hang in the Earth's gravitational field.The spring stretches 3.6 cm before it reaches its equilibrium position.If allowed to oscillate,what would be its frequency?

A)2.6 Hz
B)0.45 × 10^-3 Hz
C)0.67 Hz
D)2.1 Hz

Accepted Answer

The answer of A mass m = 8.0 kg is...

Question 14

A 4.8 kg block attached to a spring executes simple harmonic motion on a frictionless horizontal surface.At time t = 0 s,the block has a displacement of -0.90 m,a velocity of -0.80 m/s,and an acceleration of +2.9 m/s².The force constant of the spring is closest to:

A)15 N/m
B)14 N/m
C)13 N/m
D)12 N/m
E)11 N/m

Accepted Answer

The answer of A 4.8 kg block attached to a...

Question 15

A 0.16 kg block on a horizontal frictionless surface is attached to a spring whose force constant is 360 N/m.The block is pulled from its equilibrium position at x = 0 m to a displacement x = +0.080 m and is released from rest.The block then executes simple harmonic motion along the x-axis (horizontal).When the displacement is x = -0.037 m,the acceleration of the block is closest to:

A)85 m/s²
B)43 m/s²
C)64 m/s²
D)270 m/s²
E)370 m/s²

Accepted Answer

The answer of A 0.16 kg block on a horizontal...

Question 16

A 2.0 kg block on a frictionless table is connected to two springs with spring constants k₁ and k2₁ whose opposite ends are fixed to walls,as show in the figure.What is the oscillation angular frequency if k₁= 7.6 N/m and k₂= 5.0 N/m?

A)2.5 rad/s
B)3.5 rad/s
C)0.40 rad/s
D)0.56 rad/s

Accepted Answer

The answer of A 2.0 kg block on a frictionless...

Question 17

A 56.0 kg bungee jumper jumps off a bridge and undergoes simple harmonic motion.If the period of oscillation is 11.2 s,what is the spring constant of the bungee cord?&#10;A)17.6 N/m&#10;B)21.1 N/m&#10;C)28.2 N/m

Accepted Answer

The answer of A 56.0 kg bungee jumper jumps off...

Question 18

A 3.42 kg mass hanging vertically from a spring on the Earth (where g = 9.8 m/s²)undergoes simple oscillatory motion.If the spring constant is 12 N/m,find the period of oscillation of this setup on the moon,where g = 1.6 m/s².

A)3.35 s
B)2.51 s
C)4.35 s
D)5.70 s

Accepted Answer

The answer of A 3.42 kg mass hanging vertically from...

Question 19

A 2.0 kg block on a horizontal frictionless surface is attached to a spring whose force constant is 590 N/m.The block is pulled from its equilibrium position at x = 0 m to a displacement x = +0.080 m and is released from rest.The block then executes simple harmonic motion along the x-axis (horizontal).The velocity of the block at time t = 0.10 s is closest to:

A)-1 m/s
B)1 m/s
C)0.2 m/s
D)-0.2 m/s
E)zero

Accepted Answer

The answer of A 2.0 kg block on a horizontal...

Question 20

A 0.12 kg block on a horizontal frictionless surface is attached to a spring whose force constant is 570 N/m.The block is pulled from its equilibrium position at x = 0 m to a displacement x = +0.080 m and is released from rest.The block then executes simple harmonic motion along the x-axis (horizontal).The displacement of the block at time t = 0.20 s is closest to:

A)0.01 m
B)-0.01 m
C)0.08 m
D)-0.08 m
E)0.1 m

Accepted Answer

The answer of A 0.12 kg block on a horizontal...

Question 21

An object (object A) of mass M is attached to a spring with spring constant k. The other end of the spring is attached to a rigid wall. A second object (object B) of mass M is attached to two springs (one on each side of the object), each with a spring constant of k/2 (the other ends of the springs are attached to rigid walls). Each object is displaced and let go, causing harmonic motion. How does the frequency of oscillation of object A compare to that of object B?

A)The frequencies are the same.
B)The frequency of object B is higher than that of A.
C)The frequency of object B is lower than that of A.

Accepted Answer

The answer of An object (object A) of mass M...

Question 22

A pendulum released from 65 degrees with the vertical will vibrate with the same frequency as if it were released from 5 degrees with the vertical.

Accepted Answer

The answer of A pendulum released from 65 degrees with...

Question 23

Simple harmonic motion occurs only if the restoring force is directly proportional to the first power of the displacement.

Accepted Answer

The answer of Simple harmonic motion occurs only if the...

Question 24

The length of a pendulum changes by thermal expansion.If the length increases by 0.1%,what would be the change in the period?&#10;A)increase by  &#10;B)increase by 0.1%&#10;C)decrease by 0.1%&#10;D)decrease by 0.99

Accepted Answer

The answer of The length of a pendulum changes by...

Question 25

If both the mass of a simple pendulum and its length are doubled,the period will&#10;A)be unchanged.&#10;B)increase by a factor of 2.&#10;C)increase by a factor of 4.&#10;D)increase by a factor of 1.4&#10;E)increase by a factor of 0.71.

Accepted Answer

The answer of If both the mass of a simple...

Question 26

A disk and a ball both of radius r and mass m,are suspended at a point on the edge of the object at the maximum radius.Which has the smaller period of oscillation?&#10;A)ball&#10;B)disk&#10;C)the same&#10;D)Not enough information

Accepted Answer

The answer of A disk and a ball both of...

Question 27

For an object undergoing simple harmonic motion,&#10;A)the acceleration is greatest when the speed is greatest.&#10;B)the displacement is greatest when the speed is greatest.&#10;C)the acceleration is greatest when the displacement is greatest.&#10;D)the maximum potential energy is larger than the maximum kinetic energy.&#10;E)the total energy oscillates at frequency f =   .

Accepted Answer

The answer of For an object undergoing simple harmonic motion,&#10;A)the...

Question 28

A simple pendulum having a bob of mass M has a period T.If you double M but change nothing else,the period would be:&#10;A)2T&#10;B)T  &#10;C)T&#10;D)T/  &#10;E)T/2

Accepted Answer

The answer of A simple pendulum having a bob of...

Question 29

A mass is oscillating at the end of a spring.Neither the period of oscillation nor the maximum speed of the mass depend on the amplitude of the motion.

Accepted Answer

The answer of A mass is oscillating at the end...

Question 30

If the frequency of a harmonic oscillator doubles,by what factor does the maximum value of acceleration change?&#10;A)4&#10;B)2&#10;C)  &#10;D)2/&#960;

Accepted Answer

The answer of If the frequency of a harmonic oscillator...

Question 31

Two identical objects,each with a mass M,are attached to each other via a spring with a spring constant k.The two objects are oscillating such that one is always moving in the opposite direction and with the same speed as the other.If the two objects were made to oscillate with a higher amplitude,

A)the average kinetic energy of each object would increase.
B)the average potential energy of the spring would increase.
C)the total mechanical energy would increase.
D)All of the above

Accepted Answer

The answer of Two identical objects,each with a mass M,are...

Question 32

Two identical objects,each with a mass M,are attached to each other via a spring with a spring constant k.The two objects are oscillating such that one is always moving in the opposite direction and with the same speed as the other.If the two objects were made to oscillate with a higher amplitude,

A)the average kinetic energy of each object would increase.
B)the average potential energy of the spring would increase.
C)the total mechanical energy would increase.
D)All of the above

Accepted Answer

The answer of Two identical objects,each with a mass M,are...

Question 33

A mass attached to a very light spring executes simple harmonic motion.If you want to double its total energy,you should&#10;A)double the amplitude of vibration while changing nothing else.&#10;B)double the force constant of the spring while changing nothing else.&#10;C)double both the amplitude and force constant.&#10;D)double the mass while changing nothing else.&#10;E)double both the mass and amplitude of vibration.

Accepted Answer

The answer of A mass attached to a very light...

Question 34

As a pendulum swings through its cycle,the mass is moving fastest and has its greatest acceleration at the bottom of the swing.

Accepted Answer

The answer of As a pendulum swings through its cycle,the...

Question 35

A mass oscillates at the end of a spring.If you double both the mass and the spring constant,the period of oscillation is unchanged.

Accepted Answer

The answer of A mass oscillates at the end of...

Question 36

A simple pendulum has a period T on Earth.If it were used on Planet X,where the acceleration due to gravity is 3 times what it is on Earth,its period would be:&#10;A)3T&#10;B)   T&#10;C)T&#10;D)T/  &#10;E)T/3

Accepted Answer

The answer of A simple pendulum has a period T...

Question 37

A mass attached to a spring would vibrate with the same frequency in an orbiting satellite as it does at Earth's surface,but a pendulum would not have the same frequency that it has at Earth's surface.

Accepted Answer

The answer of A mass attached to a spring would...

Question 38

If you double the mass of a pendulum,the period of vibration does not change.

Accepted Answer

The answer of If you double the mass of a...

Question 39

If pendulum A is twice as long as pendulum B,the period of oscillation of A will be twice as long as the period of B,even if they have different masses.

Accepted Answer

The answer of If pendulum A is twice as long...

Question 40

Two identical objects,each with a mass M,are attached to each other via a spring with a spring constant k.The two objects are oscillating such that one is always moving in the opposite direction and with the same speed as the other.If the two objects were made to oscillate with a higher amplitude,

A)the average kinetic energy of each object would increase.
B)the average potential energy of the spring would increase.
C)the total mechanical energy would increase.
D)All of the above

Accepted Answer

The answer of Two identical objects,each with a mass M,are...

Question 41

If the total energy of a harmonic oscillator is reduced by 1/3,what is the change in the amplitude of the oscillations?&#10;A)  &#10;B)  &#10;C)1/3&#10;D)3

Accepted Answer

The answer of If the total energy of a harmonic...

Deck 14: Oscillations