Uniform Acceleration Homework: Calculate Distance and Force

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Homework Help Overview

The problem involves a pitcher accelerating a baseball uniformly before its release. The baseball has a weight of 1.40 N and is released with a velocity of 37.0 m/s after a duration of 0.0500 s. The questions focus on calculating the distance the ball accelerates before release and determining the force exerted by the pitcher.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning, Problem interpretation

Approaches and Questions Raised

  • Participants discuss the application of kinematic equations, particularly questioning the relationship between velocity, acceleration, and time. Some express confusion regarding the initial conditions of the ball's motion and the implications of the given velocity.

Discussion Status

There is an ongoing exploration of the problem, with participants sharing insights on how to approach the calculations for distance and force. Some have made attempts at solutions, while others are clarifying concepts and addressing contradictions in the problem statement.

Contextual Notes

Participants note potential contradictions in the problem's phrasing regarding the initial state of the baseball and its velocity upon release. There is also mention of the need to apply Newton's second law in the context of the force calculation.

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Homework Statement


After uniformly accelerating his arm for 0.0500 s, a pitcher releases a baseball of weight 1.40 N with a velocity of 37.0 m/s horizontally forward. The ball starts from rest. (Assume that horizontally forward and upward are positive.)


Homework Equations



a)Through what distance does the ball accelerate before its release?

b)What force does the pitcher

The Attempt at a Solution



I got part of part b What force does the pitcher ___Ni + 1.4Nj

I really just need the equation to find part a.
 
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Does
v = a t[/itex]<br /> ring a bell? Can you apply that here? <br /> <br /> Also, the phrases &quot;... with a velocity of 37.0 m/s horizontally forward.&quot; and &quot;The ball starts from rest. &quot; sound a bit contradictory to me (I assume they mean: it starts from rest, <i>then</i> the pitcher accelerates it, and when he let&#039;s go, it has a(n instantaneous) velocity of 37.0 m/s).
 
CompuChip said:
Does
v = a t[/itex]<br /> ring a bell? Can you apply that here? <br /> <br /> Also, the phrases &quot;... with a velocity of 37.0 m/s horizontally forward.&quot; and &quot;The ball starts from rest. &quot; sound a bit contradictory to me (I assume they mean: it starts from rest, <i>then</i> the pitcher accelerates it, and when he let&#039;s go, it has a(n instantaneous) velocity of 37.0 m/s).
<br /> <br /> I tried that but when I input the answer into the site it says it&#039;s wrong.
 
What did you try? You need to find the distance it traveled during its acceleration. Start by finding the average speed.
 
I think what compuchip gave you was the final velocity, after the release. From there you can find the acceleration, having the duration (time) of acceleration. then relating that final result to the change in position in the x direction using your kinematic equations to represent mathematically what is going on physically. Having just the equation never really helped me understand how to use them or when to use them.
 
Ok I understood what you guys said and got part a but I'm still sort of confused about part b, the first part of it.
 
Apply Newton's 2nd law.
 

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