A pendulum as a 0.35 kg mass oscillating at a small angle from a light string of length 1.0 m.

What is the frequency of oscillations?

Round answer to two significant digits.

Two identical blocks connected to ideal springs are oscillating on a horizontal frictionless surface. The motion of the blocks A and B over time are shown in the graph.

Why are the periods different for block A and B?

A block attached to an ideal spring oscillates without friction on a horizontal table. A student makes the following measurements on the block.

What is the maximum kinetic energy of the block?

A block attached to an ideal spring oscillates horizontally without friction. The spring constant k is 100 N/m and the initial displacement is 3 m.

Which graph best represents the kinetic energy of the block over time?

A student extends then releases a mass attached to a spring. A graph of the mass's displacement over time is shown

What is the velocity at 2 s?

A student extends then releases a mass attached to a spring. A graph of the mass's displacement over time is shown.

What is the period of the oscillation?

A 1.5 kg mass attached to an ideal spring oscillates horizontally with an amplitude of 0.30 m. The spring constant is 85 N/m.

What is the period of the mass's motion?