Show:
VOCAB
Equations
Springs
Pendulum/Springs 2
Symbols
100

The maximum displacement from the equilibrium

position.

Amplitude

100

What is this formula used for: T=1/f

Period/Frequency

100

A block of mass m ocillates on a spring with frequency f. Which of the following expressions is equal to the spring constant of the spring.

a. 2πm/f^2      b. 4π^2m/f^2    c.2πmf^2      d.4π^2mf^2

d. 4π^2mf^2


100

A simple pendulum near the surface of Earth has a period TE. The same pendulum is transported to the surface of the Moon, where the acceleration due to gravity is approximately g/6, and the pendulum has a period TM. The ratio of TM:TE is most nearly.

a. 1:6

b. 1:√ 6

c. √6:1

d. 6:1

c. √6:1

100

What does this symbol mean: A

amplitude

200

There is some force acting to stop the SHM.

Damping

200

What is this equation used for: T=2π√ m/k

Period of a spring

200

A block is attached to a horizontal spring. The block is held so the spring is stretched and the block is released from rest, undergoing simple harmonic motion with a frequency of 2 Hz. How long after release will the block first reach a point where it is momentarily at rest?

a. 0.25s

b. 0.50s

c. 1.0s

d. 2.0s

a. 0.25s

200

A block of mass 0.40kg attached to a horizontal spring is undergoing simple harmonic motion along a horizontal surface. The maximum acceleration of the block has a magnitude of 1.5 m/s2 and occurs when the block is displaced by a distance of 0.20m from its equilibrium position. The spring constant of the spring is most nearly

a. 0.12 N/m

b. 0.60 N/m

c. 3.0 N/m

d. 7.5 N/m

c. 3.0 N/m

200

ω what does this symbol mean.

angular frequency

300

The time it takes for the SHO to complete 1 revolution

Period of oscillation

300

What is this equation used for: T=2π√l/g

Period of a pendulum 

300

An object with mass m attached to a horizontal spring with spring constant k undergoes simple harmonic motion with A and period T. Which of the following expressions is equal to the maximum speed of the block? 

a. 4A/T

b. √k/m(A)

c. k/m(A)^2

d. 1/2(kA)^2

b.√k/m(A)

300

One end of a horizontal spring with spring constant 100 N/m is attached to a block of mass 0.50 kg, and the other end is attached to a wall. The block can slide with negligible friction along the x-axis on a horizontal surface. When the block is at position x=0.75m, the spring is at its unstreched length. From which of the following positions can the block be released and have a maximum acceleration with magnitude 20 m/s2.

a. 0.10m

b. 0.20m

c. 0.65m

d. 0.95m

c. 0.65m

300

T what does this symbol mean?

period

400

The number of oscillations per second.

Frequency of Oscillation

400

At time t=0, an object is released from rest at position x=+xmax and undergoes simple harmonic motion along the x-axis about the equilibrium position of x=0. The period of oscillation of object is T. Which of the following equations is equal to the object's position at time t=T/8?

a. xmax/8

b. xmax/2

c. xmaxcos(pi/8)

d.xmaxcos(pi/4)

d. xmaxcos(pi/4)

400

A platform of mass 2.0kg rests on a vertical spring with a spring constant k=250N/m. The equilibrium length of the spring is L1. A ball of clay of mass 0.5kg is then placed on the platform and the system is allowed to come to rest. The new equilibrium length of the spring is L2. What is the difference L1-L2 between the equilibrium lengths of the spring? 

A. 0.02m    B. 0.06m      C. 0.08m        D.0.10m

A. 0.02m

400

A block attached to a horizontal spring undergoes shm along a horizontal surface. When the block is at its maximum displacement, the force exerted on the block by the spring has magnitude FA, and when the block is at its equilibrium position, the force exerted on the block by the spring has a magnitude Feq. Which of the following correctly compares FA and Feq , and provides a valid justification.

a. FA = Feq because the force is zero when the block is at its equilibrium position and when it is at its maximum displacement. 

b. FA = Feq because the force on the block is constant throughout the block's motion

c. FA > Feq because the speed of the block is a maximum when the displacement is a max and zero when the displacement is zero.

d. F> Feq because the force is zero at the equilibrium position and a max and max displacement

d. F> Feq because the force is zero at the equilibrium position and a max and max displacement

400

Which of the following must be true for an object undergoing simple harmonic motion?

a. the force exerted on the object is in the direction of the object's displacement

b. the magnitude of the force exerted on the object is proportional to the object's displacement from equilibrium.

c. the magnitude of the acceleration of the object is at its maximum value when the object is at its equilibrium position.

d. the speed of the object is at its maximum value when the object is at its maximum displacement.

b. the magnitude of the force exerted on the object is proportional to the object's displacement from equilibrium.

500

An object which periodically oscillates about a fixed point known as the equilibrium

Simple Harmonic Oscillator

500

A block is released from rest on a track that consists of two ramps that are at the same small angle to the horizontal. The block makes a smooth transition from one ramp to another, and friction between the block and the track is negligible. The block slides back and forth along the track. Will the block undergo SHM? Why or why not?

a. yes because the motion of the block is periodic

b. yes, because the restoring force exerted by the component of the gravitational force parallel to the ramp is always opposite the direction of the displacement of the block from equilibrium.

c. no, because the average net force on the block over one complete oscillation is zero.

d. No, because the restoring force exerted by the component of the gravitational force parallel to the ramp is not proportional to the block's displacement from equilibrium. 

d. No, because the restoring force exerted by the component of the gravitational force parallel to the ramp is not proportional to the block's displacement from equilibrium.

500

A block attached to a spring is held at position x=0 and released. The block then undergoes simple harmonic motion along the x-axis. The force exerted on the block by the spring as a function of the block's position x is represented by the graph. Which of the following positions, if any, corresponds to the equilibrium position of the spring-block system?

a.0.om

b. 0.50m

c. 1.0m

d. there is no equilibrium position because the force is nonzero at x=0.

a. 0.0m

500

A block of mass 2.0kg on a horizontal surface is attached to one end of a spring with spring constant 30 N/m. The other end of the spring is attached to a wall. There is negligible friction between the block and the surface. The block is displaced a distance 0.1 m from equilibrium and released from rest, after which the block undergoes simple harmonic motion. The magnitude of the max acceleration of the block is almost nearly

a. 10m/s2

b. 6.0m/s2

c. 3.0m/s2

d.1.5 m/s2

d. 1.5 m/s2

500

Which of the following types of motion can be described as simple harmonic motion?

a. an ice cube sliding down one side of a curved bowl, past the bottom and back up the other side

b. a ball rolling down a ramp and back up another ramp where the angle of both ramps with the vertical is the same

c. a cart sliding back and forth on a surface while attached to a spring

d. a dropped ball that collides elastically with the floor and returns to its initial height

c. a cart sliding back and forth on a surface while attached to a spring