Solving Kinematics Problems: Maximum Height, Time, and Velocity Calculations

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A bullet is fired vertically at 512 m/s, reaching a maximum height calculated to be 13,375 meters using the formula Vf^2 = Vi^2 + 2ad. The time taken to stop rising is approximately 52.24 seconds, derived from the equation Vf = Vi + at. For the bullet's velocity after 60 seconds, the correct approach involves using the total time of flight, leading to a negative velocity due to gravitational effects. The discussion emphasizes the importance of sign conventions and accuracy in calculations. Overall, the calculations are mostly correct, with minor adjustments suggested for clarity and precision.
BigCountry
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Good Morning,

Just checking my work, your help would be much appreciated.

A bullet is fired vertically into the air at a speed of 512 m/s.

a) To what maximum height will the bullet does the bullet go?

b) How much time passes before the bullet stops rising?

c) What is the velocity of the bullet after 60 seconds?

My Answers:

a)

Vi = 0, Vf = 512, g = -9.8, find d

Vf^2 = Vi^2 + 2ad
512^2 = 2(-9.8)d
262144 = (-19.6)d
262144/(-19.6) = d
13375 m = d

:smile:


b)

Vi = 0, Vf = 512, g = -9.8, find t

Vf = Vi + at
512 = 0 + (-9.8)t
512/(-9.8) = t
52.24 Secs = t

c)

Vi = 0, g = -9.8, t = 8, find Vf

Vf = Vi + at
Vf = 9.8 * 8
Vf = 78.4 or 78 m/s^2

Thank You
 
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All correct. :smile:
Better not use t=8s in c), but the more accurate 7.76s. Makes a difference of 2m, but who's counting.
 
BigCountry said:
My Answers:

a)

Vi = 0, Vf = 512, g = -9.8, find d

Vf^2 = Vi^2 + 2ad
512^2 = 2(-9.8)d
262144 = (-19.6)d
262144/(-19.6) = d
13375 m = d
I'd say that Vi = 512 m/s, Vf = 0. (This way you won't have to ignore any strange minus signs. :wink: ) Otherwise, looks good.

b)

Vi = 0, Vf = 512, g = -9.8, find t

Vf = Vi + at
512 = 0 + (-9.8)t
512/(-9.8) = t
52.24 Secs = t
Again: Vi = 512 m/s, Vf = 0. Otherwise, looks good.

c)

Vi = 0, g = -9.8, t = 8, find Vf

Vf = Vi + at
Vf = 9.8 * 8
Vf = 78.4 or 78 m/s^2
Huh? t = 60 s, not 8. (Again: Vi = 512 m/s) Note: Signs count!

(Note: Now I see what you did for question c: You started from the top. Good! But take Galileo's advice about accuracy. Note that the velocity is negative.)
 
Last edited:
Thanks Galileo!

Much appreciated!
 

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