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Physics question (1 Viewer)

AlonzoN

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Hi, I just need help to see if I have done the correct working out for this 7 mark question.

An arrow with a mass of 45.3 g is fired vertically into the air at 85 m/s from a height of 1.41 m. Calculate the speed of the arrow when it reaches a height of 36.3 m.

This is what I have done:

m = 0.0453 kg, d = 36.3 - 1.41 = 34.89 m, u = 82.5 m/s, a = -9.8 m/s/s, F = ma, W = Fd, W = KE final - KE initial, KE = 1/2mv^2,

therefore, W = mad, W = 1/2mv^2 - 1/2mu^2,

therefore, mad = 1/2mv^2 - 1/2mu^2


So I plugged in the numbers:

34.89 * -9.8 * 0.0453 = 1/2 * 0.0453 * v^2 - 1/2 * 0.0453 * 85^2

-15.49 = 0.02265v^2 - 163.65

148.16 = 0.02265v^2

therefore,

v = rt(148.16/0.02265) = 80.9 m/s


Am I right or wrong?
 

jimmysmith560

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Your answer appears to be correct, as per the following working:

Given:
  • mass of arrow,
  • initial velocity,
  • initial height,
Height travelled by the arrow when it reaches 36.3 m:




Let the velocity at 36.3 m be v

From equation of motion:


,






Speed of arrow at given height is 80.9 m/s.

I hope this helps! :D
 

jimmysmith560

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So wait, did the arrows mass not matter?
Perhaps your approach is the most appropriate given that you have used all information provided in the question and included it in .

Also, how come the question mentions "fired vertically into the air at 85 m/s" but you wrote ? 🤔
 

AlonzoN

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initial velocity for the initial kinetic energy, and I figured that it would be appropriate to have an initial velocity to try and find a final velocity.
 

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