A vertical ideal spring is mounted on the floor and has a spring constant of 128 n m.
A vertical spring is mounted on the floor.
A 0 90 kg block is placed on the spring in two different ways.
O mmh a vertical spring spring constant 112 n m is mounted on the floor.
The block is not attached to the spring.
A vertical spring with a spring constant of 380 n m is mounted on the floor.
A vertical spring with a spring constant of 480 n m is mounted on the floor.
From directly above the spring which is unstrained a 0 13 kg block is dropped from rest.
A 0 80 kg block is placed on the spring in two different ways.
A vertical spring spring constant 128 n m is mounted on the floor.
A vertical ideal spring is mounted on the floor and has a spring constant of 181 n m.
A in one case the block is placed on the spring and not released until it rests stationary on the spring in its equilibrium position.
From directly above the spring which is unstrained a 0 30 kg block is dropped from rest.
A vertical ideal spring is mounted on the floor and has a spring constant of 132 n m.
A vertical spring spring constant 112 n m is mounted on the floor.
A in one case the block is placed on the spring and not released until it rests stationary on the spring in its equilibrium position.
It collides with and sticks to the spring which is compressed by 2 0 cm in bringing the block to a momentary halt.
The block is not attached to the spring.
A 0 380 kg block is placed on top of the spring and pushed down to start it oscillating in simple harmonic motion.
The block is not attached to the spring.
A 0 400 kg block is placed on top of the spring and pushed down to start it oscillating in simple harmonic motion.
A 0 550 kg block is placed on top of the spring and pushed down to start it oscillating in simple harmonic motion.
A vertical ideal spring is mounted on the floor and has a spring constant of 134 n m.
A in one case the block is placed on the.
The block is not attached to the spring.
A 0 80 kg block is placed on the spring in two different ways.
A 0 400 kg block is placed on top of the spring and pushed down to start it oscillating in simple harmonic motion.