A 700-g block is dropped onto a relaxed vertical spring that has a spring constant k =200.0 N/m. The block becomes attached to the spring and compresses the spring 46.6 cm before momentarily stopping. While the spring is being compressed, what work is done on the block by the gravitational force on it? While the spring is being compressed, what work is done on the block by the spring force? What is the speed of the block just before it hits the spring? (Assume that friction is negligible.) If the speed at impact is doubled, what is the maximum compression of the spring?

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A 700-g block is dropped onto a relaxed vertical spring that has a spring constant k =200.0 N/m. The block becomes attached to the spring and compresses the spring 46.6 cm before momentarily stopping. While the spring is being compressed, what work is done on the block by the gravitational force on it?

While the spring is being compressed, what work is done on the block by the spring force?

What is the speed of the block just before it hits the spring? (Assume that friction is negligible.)

If the speed at impact is doubled, what is the maximum compression of the spring?

The image depicts a block and spring setup. A large orange block is shown descending towards a spring that is positioned between two vertical columns. An arrow indicates the direction of the block’s movement, pointing downward, suggesting that the block is about to come into contact with the spring.

Below the image, the text partially reads: "V/m. The block becomes attached to the sp..."

This setup can illustrate concepts such as potential energy, kinetic energy, and the mechanics of springs, including Hooke's Law. The spring is likely intended to compress when the block makes contact, storing potential energy, which would be a point of study regarding energy transfer and conservation in physics.
Transcribed Image Text:The image depicts a block and spring setup. A large orange block is shown descending towards a spring that is positioned between two vertical columns. An arrow indicates the direction of the block’s movement, pointing downward, suggesting that the block is about to come into contact with the spring. Below the image, the text partially reads: "V/m. The block becomes attached to the sp..." This setup can illustrate concepts such as potential energy, kinetic energy, and the mechanics of springs, including Hooke's Law. The spring is likely intended to compress when the block makes contact, storing potential energy, which would be a point of study regarding energy transfer and conservation in physics.
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