Solving a Golf Ball Problem: V=105/3.8 & Y = 70.76 sin 27.63

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Homework Help Overview

The problem involves calculating the initial velocity of a golf ball struck on level ground, given its horizontal distance traveled and the time of flight. The subject area pertains to kinematics in physics.

Discussion Character

  • Exploratory, Assumption checking, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the calculation of initial velocity using horizontal distance and time, with some questioning the interpretation of vertical motion equations. There is a focus on separating horizontal and vertical components of motion.

Discussion Status

Some participants have offered guidance on how to approach the problem by emphasizing the need to consider both horizontal and vertical components of the initial velocity. There is an indication that the original poster has made progress with the assistance provided.

Contextual Notes

Participants are working under the assumption of neglecting air resistance, and there is a mention of potential errors in calculations that are being addressed through peer feedback.

gen1pro
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Well I've been working on these last two problems and I just can't figure them out. Can someone just point me in the correct direction?

1.) A golf ball is struck with a five iron on level ground. It lands 105.0m away 3.80 s later. What is the magnitude and the direction of the initial velocity?(Neglect air resistance.)

This is what I have for this problem: V=105/3.8 = 27.63m/s
Then I used y = Vyot - (1/2)g t^2 the answer from this was 70.76 for which I then used 70.76 sin 27.63 to get an angle.

thanks in advance for the help

kwesi
 
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Check your working again for the velocity of 70.67.
 
gen1pro said:
V=105/3.8 = 27.63m/s

Careful there, that's just the (constant) speed in the horizontal direction. If you want to use the formula y(t) = V_{y}(0)\cdot t - \frac{1}{2}gt^{2}, try to fill in the values for the moment the ball touches down again. You should end up with V_{y}(0). Then you'll have both components of the initial velocity vector, and from there it's just a small step to complete the answer.
 
thanks for the info I was able to figure it out with your help.
 

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