A 400N body starts up a 30° incline (µ = 0.2) with a velocity of 3m/s. How long must a 500N horizontal force act on the body to increase its velocity to 8m/s? How far will the body travel while the force is acting? (For the First Solution, apply the Resultant Impulse Equation) (For the Second Solution, apply the Impulse-Momentum Equation) 400N 500N_ 30

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
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Conservation of Linear Momentum, Resultant Impulse Equation and Impulse Momentum Equation

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A 400N body starts up a 30° incline (µ = 0.2) with a velocity of 3m/s. How
long must a 500N horizontal force act on the body to increase its velocity to 8m/s? How
far will the body travel while the force is acting?
(For the First Solution, apply the Resultant Impulse Equation)
(For the Second Solution, apply the Impulse-Momentum Equation)
1400N
500N
30
Transcribed Image Text:A 400N body starts up a 30° incline (µ = 0.2) with a velocity of 3m/s. How long must a 500N horizontal force act on the body to increase its velocity to 8m/s? How far will the body travel while the force is acting? (For the First Solution, apply the Resultant Impulse Equation) (For the Second Solution, apply the Impulse-Momentum Equation) 1400N 500N 30
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