Rotational Motion of a Mass on a Table: Solutions

benf.stokes · Apr 15, 2010

Homework Statement

We have a rule of mass m and length l lying on a table without friction.

We give a boost I to the rule at a distance d from the center of mass so that it now has a rotation and a translation.

1) The rule rotates about which point?

2) Determine the velocity, vm, of the center of mass.

3) Determine the angular velocity, w, of the ruler.

4)What should be the distance d so that the instantaneous displacement ds of the oposite side of the ruler be a minimum?

Homework Equations

w=v*r
I= Variation momentum

The Attempt at a Solution

I think the answer to 1 is that it rotates about it center of mass but I don't have a clue about the other ones

kuruman · Apr 15, 2010

You are correct on 1.

Another word for "boost I" is "impulse I". Does this mean something to you?

benf.stokes · Apr 16, 2010

Yes impulse is the change in momentum but how do I know the direction of the resulting velocity?

kuruman · Apr 16, 2010

Put a ruler on a table and give it a sharp flick with your finger. That's the impulse. In what direction is the impulse? In what direction does the ruler move?

Doc Al · Apr 16, 2010

benf.stokes said:

I think the answer to 1 is that it rotates about it center of mass but I don't have a clue about the other ones

I suspect they are asking about the instantaneous axis of rotation, which won't be the center of mass. (Since it's also translating.)

Rotational Motion of a Mass on a Table: Solutions

Homework Statement

Homework Equations

The Attempt at a Solution

1. What is rotational motion?

2. How is rotational motion different from linear motion?

3. How do you calculate the rotational motion of a mass on a table?

4. What factors affect the rotational motion of a mass on a table?

5. How can rotational motion be applied in real-life situations?

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