Calculating Velocity and Acceleration for Variable Motion

monkfishkev · Aug 8, 2012

An object starts from position X = 0 and moves along a straight line with its position given by; X = 20t - 5t^3 where t is the time taken to reach position X.

Find;
i) The time at which the velocity is zero
ii) The time at which the acceleration is zero
iii) The average velocity over the first three seconds of motion

No answers were given with the questions, so would appreciate some answers to check against mine. I have 1.15s, 0s and -50m/s

andrien · Aug 8, 2012

yes,yes, no(-25)

monkfishkev · Aug 8, 2012

Can you please explain how you come to get -25. Thanks for your time :-)

monkfishkev · Aug 8, 2012

I must be doing this wrong:

v = 20 - 15t^2
After 1s, v = 20 - 15(1) = 5m/s
After 2s, v = 20 - 15(4) = -40m/s
After 3s, v = 20 - 15(9) = -115m/s

Average speed = 5 - 40 - 115 =
= -150 ÷ 3 = -50m/s

lewando · Aug 8, 2012

You are looking for average velocity. This is defined as displacement / time.

andrien · Aug 9, 2012

avg. velocity=(∫vdt)/(∫dt),but here ∫vdt is x itself(given) so for three seconds
x=-75
t=3
<v>=-25

monkfishkev · Aug 9, 2012

thank you

Calculating Velocity and Acceleration for Variable Motion

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