A force exerts an impulse I on a particle changing its velocity from initial velocity u m/s to final velocity −2u m/s. If the applied force and initial velocity are oppositely oriented along the same line, find the work done by force.
A
12|I|u
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B
32|I|u
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C
13|I|u
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D
2|I|u
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Solution
The correct option is A12|I|u
Taking rightward motion as +ve.
Impulse, I= change in momentum Δp ∴I=m(vfinal−vinitial) =m(−2u−u) =−3mu ⇒|I|=3mu...(i)
Let work done by impulsive force is W.
From work energy theorem, W=ΔK.E =K.Efinal−K.Einitial=12mv2final−12mv2initial=12m(v2final−v2initial) =12m((2u)2−u2)=32mu2 ∴W=32mu2...(ii)
From equation (i) and (ii) W=12|I|u