Solving for Minimum Velocity: Ball & Rock

In summary: The ball is moving as it slides down the rock. In summary, the solution involves finding the minimum speed, v, at which the ball does not touch the rock. This is determined by setting the normal force, n, equal to 0, as long as the ball does not make contact with the rock. The only force acting on the ball is gravity, and the concept of centripetal acceleration does not apply unless the ball is in contact with the rock.
  • #1
frostchaos123
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0

Homework Statement



As in the attachement, find the minimum v such that the ball does not touch the rock.


The Attempt at a Solution



The solution given is mg*cos(theta) - mv^2/R = n < 0, where theta is the angle between the ball and the person.

My question is why is there a normal force acting on the ball? Since the ball is falling downwards without hitting the rock, wouldn't there be no forces acting on it other than centripetal acceleration?
 

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  • #2
What is a "normal force" according to your definition?

This is simply a case of the rock moving along the x-axis (the kick) farther than it would by falling in the y axis.

I don't see centripetal anything entering into the problem.
 
  • #3
frostchaos123 said:
My question is why is there a normal force acting on the ball?
Note that to find the minimum speed they set the normal force to zero.
Since the ball is falling downwards without hitting the rock, wouldn't there be no forces acting on it other than centripetal acceleration?
As long as the ball does not make contact with the rock, the only force on the ball is gravity. (Centripetal acceleration is not a force.)

The idea is this. First have the ball making contact with the rock as it slides down. There's a non-zero normal force, given by the equation you quoted. Find the speed which makes that normal force zero.
 
  • #4
Doc Al said:
Note that to find the minimum speed they set the normal force to zero.

As long as the ball does not make contact with the rock, the only force on the ball is gravity. (Centripetal acceleration is not a force.)

The idea is this. First have the ball making contact with the rock as it slides down. There's a non-zero normal force, given by the equation you quoted. Find the speed which makes that normal force zero.

Is the ball moving?
 
  • #5
AC130Nav said:
Is the ball moving?
Sure.
 

Related to Solving for Minimum Velocity: Ball & Rock

1. What is the equation for calculating minimum velocity?

The equation for calculating minimum velocity is V = √(2gh), where V is the minimum velocity, g is the acceleration due to gravity, and h is the height at which the object is released.

2. How is minimum velocity different from initial velocity?

Minimum velocity is the velocity at which an object must be released in order to just reach a specific height, while initial velocity is the velocity at which an object is initially launched or released.

3. Can minimum velocity be negative?

No, minimum velocity cannot be negative because it is a measure of the minimum speed required to reach a certain height and speed is always a positive value.

4. How does the mass of the object affect minimum velocity?

The mass of the object does not affect the minimum velocity as long as the object is a point mass (has no size or shape). However, if the object has a significant size or shape, its mass may affect the minimum velocity due to air resistance and other factors.

5. What are the units for minimum velocity?

The units for minimum velocity are typically meters per second (m/s) in the metric system and feet per second (ft/s) in the imperial system.

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