Calculating Linear Momentum of Golf Club on Impact

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Homework Help Overview

The discussion revolves around calculating the linear momentum of a golf club upon impact with a ball, involving concepts of angular acceleration and its relationship to linear motion. The problem includes parameters such as the length and mass of the golf club, the time of swing, and the angular acceleration provided.

Discussion Character

  • Mixed

Approaches and Questions Raised

  • Participants explore the relationship between angular and linear motion, discussing how to derive linear velocity from angular acceleration. There are attempts to clarify the use of formulas for both linear and angular motion, with some participants questioning the calculations and the conversion from angular to linear velocity.

Discussion Status

The discussion is active, with participants providing insights into the calculations and questioning the accuracy of results. There is a recognition of the need to convert angular velocity to linear velocity, and some guidance has been offered regarding the use of radius in these calculations. However, there is no explicit consensus on the correctness of the calculations presented.

Contextual Notes

Participants are working with specific values and assumptions about the golf club's dimensions and the nature of the swing. There is mention of a discrepancy between calculated and expected results, prompting further examination of the calculations and assumptions made.

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(Q) a 108 cm, 0.73kg golf club is swung for 0.5s with a constant acceleartion of 10 rad/s (squ). What os the linear momentum of the club head when it impacts the ball?

Known:
H= 108cm = 1.8m
m = 0.73 kg =7.16N
t = 0.5s
\alpha= 10 rad/s (squ)

I know momentum = mass x velcoity

So velcotiy = d/t... (so i need to find the dispalcement)

But I am thorwn but the angular accelertion o 10 rad/s(squ)
The only thing I can think of is using 2(pi)r with r being the 1.8m?

Any sugegstion where to go from here ??
 
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If you were talking about linear motion, you could find your linear velocity using your linear acceleration.

v_f=v_i + at

Same principles apply to rotational motion, except now you're looking at:

\omega_f = \omega_i + \alpha t

with omega your angular velocity
and alpha your angular acceleration
 
Hi.. thanks what you have said makes sense...

But is I use:

wf=wi + at

wf= 0 + 10 X 1.5
wf = 5 rad/s (sqR)

The linear momentum = mv = 0.73 x 5 = 3.65 kg. m/s

But the answer is 3.9 kg. m/s, I know I am only .25 off but is the book wrong or my calculations wrong ??
 
Your angular velocity is 5 radians/sec.

You need to covert that to linear velocity.

If your unit of measure is your radius (radians is the plural of radius) then you have to multiply by the radius to get your linear velocity. Your final answer was only close because your radius (the club shaft) was close to 1 - it was 1.08 meters.
 

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