Simple Harmonic Motion

Definitions

Graphs & Diagrams

Springs

Simple Pendulum

Physical Pendulum

100

What is the maximum distance (or angle) an object moves from its equilibrium position?

Amplitude

100

Which point (A, B, C, or D) represents the pendulum's equilibrium point?

100

A spring is stretched 0.12 m by a force of 14 N. What is the spring constant? Remember Units!

117 N/m

100

A pendulum is observed to complete 30 full cycles in 50 seconds. Calculate the period AND frequency. Remember Units!

T = 1.67 seconds

f = 0.6 Hz

100

Determine the mass of the rod

200

What is the number of cycles that happen every second?

Frequency

200

How many full cycles are shown in this graph?

2 cycles

200

A hanging 8 kg object stretches a spring 1.2 m on Earth. What is the spring constant? Remember Units!

67 N/m

200

What is the period of a pendulum 30 cm long? Remember Units!

1.09 seconds

200

What is the formula for the Period of a Physical Pendulum?

T=2pisqrt(I/(mgd)

300

What is the amount of time it takes to complete one cycle?

Period

300

At which point(s) (-A, 0, and/or +A) is the block's kinetic energy the LARGEST?

Point 0

300

If a 5.0kg mass attached to a spring oscillates 4.0 times every second, what is the spring constant k of the spring?

3200N/m

300

On a mystery planet, a pendulum has a period of 3 seconds. If the length of the pendulum is 1.3 m, what is the acceleration due to gravity on the planet? Remember Units!

5.7 m/s²

300

Determine the Center of Mass of the Rod

3/4 L

400

What is simple harmonic motion, and what causes simple harmonic motion?

Repetitive motion caused by a RESTORING FORCE

400

What is the frequency of the spring represented in this graph?

2 Hz

400

What is the maximum velocity for a 2kg mass on a 1000 N/m spring that is pulled back 20cm and then released?

How long will it take to reach that speed from release?

v=4.5m/s

t=T/4=0.07s

400

Find the length of a pendulum on Earth that has a frequency of 0.80Hz. Remember Units!

0.4 meters

400

Determine the Moment of Inertia for the Rod about the Pivot

3/5 ML^2

500

This differential equation is the hallmark of Simple Harmonic Motion.

(d^2x)/dt^2=-omega^2x

500

A mass M is attached to the lower end of a light spring with a spring constant k suspended from a clamp. The system is made to oscillate. A motion detector measures the amplitude and time needed for the mass to complete 5 oscillations. This procedure is repeated with different masses, and the results are shown in the table. Calculate the spring constant using a suitable graph representation.

2.54 N/m

500

A spider of 0.5g walks to the middle of her web. The web sinks by 1.0mm due to her weight. You may assume the mass of the web is negligible. If a small burst of wind sets her in motion, with what frequency will she oscillate?

15.75 Hz

500

The period of a pendulum is observed to be “T”. Suppose you want to make the period “2T” (double the period). What should you do to the pendulum?

Multiply the length by 4

500

Determine the period for this rod swinging as a physical pendulum about the pivot when released from a small angle away from a vertical orientation.

T=2pisqrt((4L)/(5g)