REMARKS Unlike its value on a horizontal surface, n is less than the weight of the sled when the sled is on the slope. This is because only part of the force of gravity (the x-component) is acting to pull the sled down the slope. The y-component of the force of gravity balances the normal force. QUESTION Consider the same scenario on a hill with a steeper slope. Would the magnitude of the tension in the rope get larger, smaller, or remain the same as before? O The magnitude of the tension force would be greater. The magnitude of the tension force would be smaller. The magnitude of the tension force would remain the same. How would the normal force be affected? O The magnitude of the normal force would be greater. O The magnitude of the normal force would be smaller. O The magnitude of the normal force would remain the same.

REMARKS Unlike its value on a horizontal surface, n is less than the weight of the sled when the sled is on the slope. This is because only part of the force of gravity (the x-component) is acting to pull the sled down the slope. The y-component of the force of gravity balances the normal force. QUESTION Consider the same scenario on a hill with a steeper slope. Would the magnitude of the tension in the rope get larger, smaller, or remain the same as before? O The magnitude of the tension force would be greater. The magnitude of the tension force would be smaller. The magnitude of the tension force would remain the same. How would the normal force be affected? O The magnitude of the normal force would be greater. O The magnitude of the normal force would be smaller. O The magnitude of the normal force would remain the same.

Name: REMARKS Unlike its value on a horizontal surface, n is less than the
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Description: REMARKS Unlike its value on a horizontal surface, n is less than the weight of the sled when the sled ison the slope. This is because only part of the force of gravity (the x-component) is acting to pull the sleddown the slope. The y-component of th

College Physics

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Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Newton's First Law of Motion

If a very smooth ball is rolled down an inclined surface with zero friction, the ball will continue to roll indefinitely for an infinite time, in an attempt to reach to the same height on the opposite hill!

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REMARKS Unlike its value on a horizontal surface, n is less than the weight of the sled when the sled is
on the slope. This is because only part of the force of gravity (the x-component) is acting to pull the sled
down the slope. The y-component of the force of gravity balances the normal force.
QUESTION Consider the same scenario on a hill with a steeper slope.
Would the magnitude of the tension in the rope get larger, smaller, or remain the same as before?
O The magnitude of the tension force would be greater.
The magnitude of the tension force would be smaller.
The magnitude of the tension force would remain the same.
How would the normal force be affected?
O The magnitude of the normal force would be greater.
O The magnitude of the normal force would be smaller.
O The magnitude of the normal force would remain the same.

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