Zero Normal force during uniform circular motion?

soominds · Jun 23, 2011

I am learning uniform circular motion and the question says: A child on a sled comes flying over the crest of a small hill. His sled does not leave the ground but he feels the normal force between his chest and the sled decrease as he goes over the hill. Explain.

Now, I know that normal force decreases at the crest of the hill as there is downward centripetal force. But how exactly does it 'feel' when the normal force decreases/ goes to zero? Do you become air-borne? Shouldn't the sled be penetrating the hill since the weight is now greater than normal force?

Confused student.

tiny-tim · Jun 23, 2011

welcome to pf!

hi soominds! welcome to pf!

soominds said:

Now, I know that normal force decreases at the crest of the hill as there is downward centripetal force.

no

there is no such thing as https://www.physicsforums.com/library.php?do=view_item&itemid=529" …

there is https://www.physicsforums.com/library.php?do=view_item&itemid=84" (in the reference frame of the child)

and there is https://www.physicsforums.com/library.php?do=view_item&itemid=27" (in the stationary reference frame)

which frame does your professor want you to use?

Zero Normal force during uniform circular motion?

1. What is normal force in circular motion?

2. Why is the normal force zero during uniform circular motion?

3. Does the normal force affect the speed of an object in circular motion?

4. What happens to the normal force when the speed of an object in circular motion increases?

5. Is the normal force always zero in circular motion?

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