A particle moves in a circle in such a way that the x and y-coordinates of its motion are given in meters as functions of time t in seconds by: x = 5 cos (3t) y = 5 sin (3t) Which of the following is true of the speed of the particle?

It oscillates between 0 and 5 m/s

It oscillates between 0 and 15 m/s

It oscillates between 5 and 15 m/s.

Two objects of equal mass hang from independent springs of unequal spring constant and oscillate up and down. The spring of greater spring constant must have the

smaller amplitude of oscillation

larger amplitude of oscillation

A block on a horizontal frictionless plane is attached to a spring, as shown below. The block oscillates along the x-axis with simple harmonic motion of amplitude A. Which of the following statements about the block is correct?

At x = A, its displacement is at a maximum

At x = 0, its velocity is zero.

At x = 0, its acceleration is at a maximum.

At x = A, its velocity is at a maximum.

At x = A, its acceleration is zero.

A block on a horizontal frictionless plane is attached to a spring, as shown below. The block oscillates along the x-axis with simple harmonic motion of amplitude A. Which of the following statements about energy is correct?

The potential energy of the spring is at a minimum at x = 0.

The kinetic energy of the block is at a minimum at x =A.

The potential energy of the spring is at a minimum at x = A.

The kinetic energy of the block is at a minimum at x =0.

The kinetic energy of the block is always equal to the potential energy of the spring.

When a block is set into oscillation with amplitude A, it passes through its equilibrium point with a speed v. In which of the following cases will the block, when oscillating with amplitude A, also have speed v when it passes through its equilibrium point?

The block is hung from only one of the two springs.

The block is hung from the same two springs, but the springs are connected in series rather than in parallel.

A 0.5 kilogram mass is attached to the block

A simple pendulum consists of a l.0-kilogram brass bob on a string about 1.0 meter long. It has a period of 2.0 seconds. The pendulum would have a period of 1.0 second if the

string were replaced by one about 0.25 meter long

string were replaced by one about 2.0 meters long

bob were replaced by a 0.25-kg brass sphere

bob were replaced by a 4.0-kg brass sphere

amplitude of the motion was increased

AP Physics Simple Harmonic Review

12th Grade - University

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AP Physics Simple Harmonic Review

Quiz

•

Physics

•

12th Grade - University

•

Practice Problem

•

Hard

•

NGSS

HS-PS2-1, HS-PS3-2, HS-PS4-1

Standards-aligned

Charles Martinez

Used 1+ times

FREE Resource

20 questions

Show all answers

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

A simple pendulum of length l. whose bob has mass m, oscillates with a period T. If the bob is replaced by one of mass 4.0 m, the period of oscillation is

.25 T

.50 T

2 T

4 T

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

Which of the following is true for a system consisting of a mass oscillating on the end of an ideal spring?

The kinetic and potential energies are equal at all times.

The kinetic and potential energies are both constant.

The maximum potential energy is achieved when the mass passes through its equilibrium position.

The maximum kinetic energy and maximum potential energy are equal, but occur at different times.

The maximum kinetic energy occurs at maximum displacement of the mass from its equilibrium position.

Tags

NGSS.HS-PS3-2

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

A 0. 1 -kilogram block is attached to an initially unstretched spring of force constant k = 40 newtons per meter as shown. The block is released from rest at time t = 0.
What is the amplitude of the resulting simple harmonic motion of the block?

1/40 m

1/20 m

1/4 m

1/2 m

Tags

NGSS.HS-PS2-1

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

A 0. 1 -kilogram block is attached to an initially unstretched spring of force constant k = 40 newtons per meter as shown. The block is released from rest at time t = 0.
At what time after release will the block first return to its initial position?

^{π/40 s}

π/20 s

π/4 s

π/10 s

π/5 s

Tags

NGSS.HS-PS2-1

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

A particle moves in simple harmonic motion represented by the graph. Which of the following represents the velocity of the particle as a function of time?

v(t) = 4 cos πt

v(t)= π cosπt

v(t) = –π² cos πt

v(t) = –4 sin πt

v(t) = –4π sin πt

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

Refer to the graph below of the displacement x versus time t for a particle in simple harmonic motion. Which of the following graphs shows the kinetic energy K of the particle as a function of time t for one cycle of motion?

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

Refer to the graph below of the displacement x versus time t for a particle in simple harmonic motion. Which of the following graphs shows the kinetic energy K of the particle as a function of time t for one cycle of motion?

Tags

NGSS.HS-PS3-2

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AP Physics Simple Harmonic Review

20 questions

A simple pendulum of length l. whose bob has mass m, oscillates with a period T. If the bob is replaced by one of mass 4.0 m, the period of oscillation is

Which of the following is true for a system consisting of a mass oscillating on the end of an ideal spring?

A 0. 1 -kilogram block is attached to an initially unstretched spring of force constant k = 40 newtons per meter as shown. The block is released from rest at time t = 0.
What is the amplitude of the resulting simple harmonic motion of the block?

A 0. 1 -kilogram block is attached to an initially unstretched spring of force constant k = 40 newtons per meter as shown. The block is released from rest at time t = 0.
At what time after release will the block first return to its initial position?

A particle moves in simple harmonic motion represented by the graph. Which of the following represents the velocity of the particle as a function of time?

Refer to the graph below of the displacement x versus time t for a particle in simple harmonic motion. Which of the following graphs shows the kinetic energy K of the particle as a function of time t for one cycle of motion?

Refer to the graph below of the displacement x versus time t for a particle in simple harmonic motion. Which of the following graphs shows the kinetic energy K of the particle as a function of time t for one cycle of motion?

A particle moves in a circle in such a way that the x and y-coordinates of its motion are given in meters as functions of time t in seconds by:

x = 5 cos (3t) y = 5 sin (3t)
What is the period of revolution of the particle?

A particle moves in a circle in such a way that the x and y-coordinates of its motion are given in meters as functions of time t in seconds by:

x = 5 cos (3t) y = 5 sin (3t)
Which of the following is true of the speed of the particle?

When a mass m is hung on a certain ideal spring, the spring stretches a distance d. If the mass is then set oscillating on the spring, the period of oscillation is proportional to

Create a free account and access millions of resources

Similar Resources on Wayground

Popular Resources on Wayground

Discover more resources for Physics

AP Physics Simple Harmonic Review

20 questions

A simple pendulum of length l. whose bob has mass m, oscillates with a period T. If the bob is replaced by one of mass 4.0 m, the period of oscillation is

Which of the following is true for a system consisting of a mass oscillating on the end of an ideal spring?

A 0. 1 -kilogram block is attached to an initially unstretched spring of force constant k = 40 newtons per meter as shown. The block is released from rest at time t = 0. What is the amplitude of the resulting simple harmonic motion of the block?

A 0. 1 -kilogram block is attached to an initially unstretched spring of force constant k = 40 newtons per meter as shown. The block is released from rest at time t = 0.At what time after release will the block first return to its initial position?

A particle moves in simple harmonic motion represented by the graph. Which of the following represents the velocity of the particle as a function of time?

Refer to the graph below of the displacement x versus time t for a particle in simple harmonic motion. Which of the following graphs shows the kinetic energy K of the particle as a function of time t for one cycle of motion?

Refer to the graph below of the displacement x versus time t for a particle in simple harmonic motion. Which of the following graphs shows the kinetic energy K of the particle as a function of time t for one cycle of motion?

A particle moves in a circle in such a way that the x and y-coordinates of its motion are given in meters as functions of time t in seconds by:x = 5 cos (3t) y = 5 sin (3t)What is the period of revolution of the particle?

A particle moves in a circle in such a way that the x and y-coordinates of its motion are given in meters as functions of time t in seconds by:x = 5 cos (3t) y = 5 sin (3t)Which of the following is true of the speed of the particle?

When a mass m is hung on a certain ideal spring, the spring stretches a distance d. If the mass is then set oscillating on the spring, the period of oscillation is proportional to

Create a free account and access millions of resources

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A 0. 1 -kilogram block is attached to an initially unstretched spring of force constant k = 40 newtons per meter as shown. The block is released from rest at time t = 0.
What is the amplitude of the resulting simple harmonic motion of the block?

A 0. 1 -kilogram block is attached to an initially unstretched spring of force constant k = 40 newtons per meter as shown. The block is released from rest at time t = 0.
At what time after release will the block first return to its initial position?

A particle moves in a circle in such a way that the x and y-coordinates of its motion are given in meters as functions of time t in seconds by:

x = 5 cos (3t) y = 5 sin (3t)
What is the period of revolution of the particle?

A particle moves in a circle in such a way that the x and y-coordinates of its motion are given in meters as functions of time t in seconds by:

x = 5 cos (3t) y = 5 sin (3t)
Which of the following is true of the speed of the particle?