Chapter Ten Rectilinear Motion 317 = 312 (a) the particle is initially at rest at the origin. X =S 3t°t4t dt A particle is travelling in a straight line such that its velocity in ms-1 at timet is given by the equanon + 4t. Find the displacement of the particle after 2 seconds, if t:0 21 (6) the particle is initially 5m right of origin. X(5)16+5 ニA m もこ0 こ0 4tマ %3D tC. 2:0 tニ2 こt+2も+C 878=16M (c) the particle is initially 6m left of origin. (d) after 3 secs its displacement is -10m. 16-6ニ1Om- (e) Find the displacement of the particle after 1 second, if after 4 seconds its displacement is 100m.

I  don't know how to do D and E

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EXERCISE 10C Chapter Ten Rectilinear Motion 317 A particle is travelling in a straight line such that its veloeity in -1 at time t is given by the equation v = 3t + 4t. Find the displacement of the particle after 2 sęconds, if t-0. % (a) the particle is initially at rest at the origin. 1. tナ2セ t o. ms メ= 3tナ4t dt まこ0 こ0. (b) the particle is initially 5m right of origin. 21 ろt3 %3D 4t3 15) 16+5 = m. 0:C. t= 2. x=2°+212)to 2:0. +2t²+c nd (s) 818%=16m (c) the particle is initially 6m left of origin. (d) after 3 secs its displacement is -10 m. 16-6こ10m. bol (e) Find the displacement of the particle after 1 second, if after 4 seconds its displacement is 100m. The velocity of a particle travelling in a straight line is given by v = 2t – 3 cm/sec. The particle is initially at the origin. (a) Find the displacement after 5 seconds. (b) Find the displacement when the particle is at rest. 2.