The motion of a particle of mass m is given by `x=0` for `tlt0s`,`x(t)=Asin4pit` for `0lttlt((1)/(4))s(Agt0)`,and `x=0` for `tgt((1)/(4))s`.

The motion of a particle of mass m is given by x = 0 for t lt 0 s, x(t) = A sin 4pit for 0 lt t lt (1/4) s (A gt 0) and x =0 for t gt(1/4) s which of the following statements is true ?

The motion of a particle of mass m is given by x=0 for t lt 0 s, x (t) = A sin 4pit for 0 lt t(1//4) s (A gt 0) and x=0 for t gt (1//4) s Which of the following statement(s) is (are) true?

The motion of a particle of mass m is given by x = 0 for t 0), and x = 0 for t > (1/4) s. which of the following statements is true?/

Fig. shows the position-time graph of a particle of mass 4 kg. What is the (i) force acting on the particle for t lt 0, t lt 4 s, 0 lt t lt 4 s ? (ii) impulse at t = 0 and t = 4 s? Assume that the motion is one dimensional.

Fig. shows the position-time graph of a particle of mass 4 kg. What is the (i) force acting on the particle for t lt 0, t lt 4 s, 0 lt t lt 4 s ? (ii) impulse at t = 0 and t = 4 s? Assume that the motion is one dimensional.

Figure shows the position-time graph of a particle of mass 4kg. Let the force on the particle for tlt0 , 0ltt lt, 4s , tgt4s be F_(1) , F_(2) and F_(3) respectively. Then

Figure shows the position-time graph of a particle of mass 4kg. Let the force on the particle for tlt0 , 0ltt lt, 4s , tgt4s be F_(1) , F_(2) and F_(3) respectively. Then

Shows the position-time graph of a particle of mass 4 kg. What is the (a) force on the particle for t lt 0, t gt 4 s, 0 lt t lt 4 s ? (b) impulse at t = 0 and t = 4 s ? (Consider one­dimensional motion only).