Magnitude and direction of impulse of baseball

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Homework Help Overview

The discussion revolves around calculating the magnitude and direction of the impulse imparted to a baseball when struck by a bat. The baseball has a mass of 0.145 kg and is initially traveling horizontally at a speed of 35 m/s before being hit, resulting in a final speed of 51 m/s at a 45-degree angle in the first quadrant.

Discussion Character

  • Exploratory, Assumption checking, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the initial and final velocity components, questioning how to correctly compute the impulse by considering both x and y components. There is uncertainty about the initial y component and how to combine the components to find the magnitude of the impulse.

Discussion Status

Some participants have provided guidance on calculating the impulse by separating it into x and y components. There is acknowledgment of the relationship between impulse and changes in momentum, and discussions are ongoing regarding the calculation of direction based on the magnitude already found.

Contextual Notes

Participants are navigating the constraints of the problem, including the need to apply Newton's third law in understanding the relationship between the impulse on the ball and the bat. There is a focus on ensuring the correct interpretation of initial and final velocities in the context of the problem setup.

dorian_stokes
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Homework Statement


A baseball player hits a baseball (m = 0.145 kg) as shown in the figure below. The ball is initially traveling horizontally with speed of 35 m/s. The batter hits a fly ball as shown, with a speed vf = 51 m/s. What is the magnitude and direction of the impulse imparted on the ball. The initial velocity is going along the x-axis in the negative direction and the final velocity is going at a 45 degree angle in the first quadrant.


Homework Equations





The Attempt at a Solution

First I had the initial velocity at -35. The final velocity I had the final velocity* cos theta. I don't know where to go from here.
 
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dorian_stokes said:
First I had the initial velocity at -35. The final velocity I had the final velocity* cos theta. I don't know where to go from here.
You need to consider both x (horizontal) and y (vertical) components of the velocity. What's the y component of the final velocity?

Once you have that, how would you compute the impulse?
 
The y component is final velocity* sin theta. I have the x component for both final a initial velocities and the y component for the final velocity. The y component for the initial will be just the -35m/s. How do I add them together to get the magnitude?
 
dorian_stokes said:
The y component is final velocity* sin theta.
OK.
I have the x component for both final a initial velocities and the y component for the final velocity.
OK.
The y component for the initial will be just the -35m/s.
No. (It's thrown horizontally.)
How do I add them together to get the magnitude?
Once you get the final components of the impulse, then you can find the magnitude using Pythagorus (like you would with any other vector).

But before you do anything, how will you calculate the impulse? How does it relate to the velocities?
 
Impulse is dp=mv_f-mv_i. I have the final velocity* cos theta+ final velocity *sin theta+ initial velocity. Is this right?
 
dorian_stokes said:
Impulse is dp=mv_f-mv_i.
OK. Impulse = Δp. But you need to find the x and y components of the Impulse separately:
Impulsex = m(Vfx -Vix)
Impulsey = m(Vfy - Viy)
 
Thanks I got the answer. I knew how to get the magnitude but got stuck with how to set it up after finding the components.
 
I have one more problem it asks for the direction of the impulse imparted to the bat. I have the magnitude but don't know how would I find the direction.
 
dorian_stokes said:
I have one more problem it asks for the direction of the impulse imparted to the bat. I have the magnitude but don't know how would I find the direction.
The impulse that the ball imparts to the bat is equal and opposite to the impulse the bat imparts to the ball. (This is from Newton's 3rd law.)
 

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