Question
Unless otherwise stated, all objects are located near the Earth's surface, where = 9.8 .
A hockey puck with a weight of 0.80 is sliding freely across a section of very smooth (frictionless) horizontal ice.
Part A
When it is sliding freely, how does the upward force of the ice on the puck (the normal force) compare with the upward force when the puck is sitting permanently at rest?
When it is sliding freely, how does the upward force of the ice on the puck (the normal force) compare with the upward force when the puck is sitting permanently at rest?
The upward force is greater when the puck is sliding.
The upward force is less when the puck is sliding.
The upward force is the same in both situations.
A hockey puck with a weight of 0.80 is sliding freely across a section of very smooth (frictionless) horizontal ice.
Part A
When it is sliding freely, how does the upward force of the ice on the puck (the normal force) compare with the upward force when the puck is sitting permanently at rest?
When it is sliding freely, how does the upward force of the ice on the puck (the normal force) compare with the upward force when the puck is sitting permanently at rest?
The upward force is greater when the puck is sliding.
The upward force is less when the puck is sliding.
The upward force is the same in both situations.
Answers
The upward force is the same in both situations.
The upward force is the same in both situations
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