Verifying Work: Two Objects & Softball Pitch Questions

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Homework Help Overview

The discussion revolves around two physics problems: one involving two objects suspended from a pulley and the other concerning the motion of a pitched softball. The first problem requires calculating the time until the objects collide, while the second problem involves determining the time it takes for a pitched ball to reach home plate and the acceleration causing it to curve.

Discussion Character

  • Mixed

Approaches and Questions Raised

  • The original poster attempts to verify their calculations for both problems, providing their answers and seeking confirmation. Some participants question the assumptions made regarding the baseball's motion, particularly in terms of acceleration and direction.

Discussion Status

Participants have provided feedback on the original poster's answers, with some confirming the correctness of the initial calculations. There is ongoing exploration of the second problem, particularly regarding the acceleration of the ball and its direction. One participant suggests reframing the baseball problem into a simpler particle motion scenario to aid understanding.

Contextual Notes

There is mention of the original poster's unfamiliarity with baseball, which may impact their understanding of the problem setup. The discussion also reflects on the need for clarity regarding the initial conditions and the nature of the motion involved.

brad sue
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Hey ,

I

I need to verify my work about this problem:
Two small objects A and B are suspended from the ends of a rope thrown over a pulley. Object A is at 1.2 m above B when the system is at rest. Object A descends with a downward acceleration of 0.3m/s2 and because of the rope, B accelerates upward at the same rate. How much time elapses before the objects bump each other?

I found t=2seconds

II

A softball picher pitches a ball at 65 mph.
The distance from the pitcher's mound to home plate is 43ft, but the pitcher realeases the ball about 41 ft from the home plate.
a- How long does it takes for the ball to reach home plate? (I found it t=.43s)
b-A Good pitcher can make the ball curve left about 6 inches over the pitch distance. If this is due to a constant acceleration, what is its magnitude and which direction does it act?

For this second question I do not know how to do it
need some suggestions.

Thank you
brad
 
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The first two answers are correct.

For IIb, the ball curves to the left, so the acceln must be in the same dirn, no!

You are given the distance moved - 6 inches - and the time taken - the time for the pitcher to reach the home plate.
Use the standard eqns of motions now.
 
question (bis)

Sorry, but I still don't get perhaps I have difficulty to represent the scene . I do not know baseball well!
but I continue searching!
 
Forget the baseball.

Consider the question as:

A particle, starting from rest and moving under a constant acceleration, moves a distance of 6 inches in 0.43 sec. What is its acceleration ?

When the baseball is thrown, it has an intial velocity of 65 mph, but that is in the forward direction, from mound to plate. It won't have any (initial) velocity in the sideways direction, just a small amount of acceleration.
 
Last edited:
Fermat said:
Forget the baseball.

Consider the question as:

A particle, starting from rest and moving under a constant acceleration, moves a distance of 6 inches in 0.43 sec. What is its acceleration ?

When the baseball is thrown, it has an intial velocity of 65 mph, but that is in the forward direction, from mound to plate. It won't have any (initial) velocity in the sideways direction, just a small amount of acceleration.

ok! Thanks I see what to do now!
 

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