Questions in Motion in A Straight Line

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	A particle experiences a constant acceleration for 20 sec after starting from rest. If it travels a distance \[{S_1}\] in the first 10 sec and a distance .. in the next 10 sec, then
	The displacement \[x\] of a particle along a straight line at time \[t\] is given by \[x = {a_0} + {a_1}t + {a_2}{t^2}\]. The acceleration of the particle is
	The coordinates of a moving particle at any time are given by \[x = a{t^2}\] and \[y = b{t^2}\]. The speed of the particle at any moment is
	An electron starting from rest has a velocity that increases linearly with the time that is \[v = kt,\] where \[k = 2m/{\sec ^2}\]. The distance travelled in the first 3 seconds will be
	The displacement of a body is given to be proportional to the cube of time elapsed. The magnitude of the acceleration of the body is
	The instantaneous velocity of a body can be measured
	A body is moving from rest under constant acceleration and let \[{S_1}\] be the displacement in the first \[(p - 1)\] sec and \[{S_2}\] be the displacement in the first \[p\,\sec .\] The displacement in \[{({p^2} - p + 1)^{th}}\] sec. will be
	A body under the action of several forces will have zero acceleration
	A body starts from the origin and moves along the X-axis such that the velocity at any instant is given by \[(4{t^3} - 2t)\], where \[t\] is in sec and velocity in\[m/s\]. What is the acceleration of the particle, when it is 2 m from the origin
	The relation between time and distance is \[t = \alpha {x^2} + \beta x\], where \[\alpha \] and \[\beta \] are constants. The retardation is

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