A particle A of mass 10/7 kg is moving in the positive directio of x-axis. At initial position x=0, its velocity is `1ms^(-1)`, then its velocity (in m/s) at x=10 m is (use the graph given)

A cricket ball of mass 0.5kg is moving with a velocity of 100 m.s^(-1) , the wavelength associated with its motion is

There is a unifrom electric field of strenght 10^(3)Vm^(-1) along Y-axis A body of mass 1gm and charge 10^(-6)C is projected into the from origin along the positive X -axis with a velocity of 10ms^(-1) Its speed in ms^(-1) after 10s is (Neglect gravitation)

There is a uniform electric field of strength 10^3 Vm^(-1) along Y-axis. A body of mass lgm and charge 10^(-6) C is projected into the field from origin along the positive X-axis with a velocity of 10 ms^(-1) Its speed in ms^(-1) after 10s is (Neglect gravitation)

A particle moving in the positive x-direction has initial v_(0) . The particle undergoes retardation kv^(2) , where it its instantaneous velocity. The velocity of the particle as a function of time is given by

A particle of mass 0.1 kg is subjected of a force which varies with distance as shown in figure. It starts its journey from rest at x = 0 then its velocity at x = 12 m is :

A body is moving along the +ve X-axis with uniform acceleration of 4ms^(2) Its velocity at x = 0 is 10 ms^(-1) . The time taken by the body to reach a point at x = 12m is

A body of mass 2kg is moving along positive X-direction with a velocity of 5 ms^(-1) . Now a force of 10sqrt2 N is applied at an angle 45^(@) with X-axis. Its velocity after 3s is,