The retardation experienced by a moving motor bike after its engine is cut-off , at the instant (t) is given by, `a =-k v^4` , where (k) is a constant. If ` v_0` is the magnitude of velocity at the cut-off , the magnitude of velocity at time (t) after the cut-off is .
The retardation experienced by a movign motr bat after its engine is cut-off , at the instant (t) is given by , =-k v^4 , where (k) is a constant. If v_0 is the magnitude of velocity at the cut-off , the magnitude fo velocity at time (t) after the cut-off is .
The retadation experienced by a moving motor boat after its, engine is cutoff at the instant t is given by a=-kv^4,where k is is a constant. If v_0 is the magnitude of velocity at the cutoff, find the magnitude of velocity at time t after the cutoff.
The deceleration exerienced by a moving motor blat, after its engine is cut-off is given by dv//dt=-kv^(3) , where k is constant. If v_(0) is the magnitude of the velocity at cut-off, the magnitude of the velocity at a time t after the cut-off is.
The acceleration. If v_(0) is themagnitude the engine is cut off, is given by (dv)/(dt) =- k v^(2) , wher (k) is a constant. If v_(0) is the magnitude of the velocity at cut off, find the magnitude of the velocity at time (t0 after the cut off.
V = k((P)/(T))^(0.33) where k is constant. It is an,
A steamboat is moving at velocity v_0 when steam is shut off. It is given that the retardation at any subsequent time is equal to the magnitude of the velocity at that time. Find the velocity and distance travelled in time t after the steam is shut off.
The linear speed of a particle moving in a circle of radius R varies with time as v = v_0 - kt , where k is a positive constant. At what time the magnitudes of angular velocity and angular acceleration will be equal ?
The velocity of a particle moving along the xaxis is given by v=v_(0)+lambdax , where v_(0) and lambda are constant. Find the velocity in terms of t.
A particle in moving in a straight line such that its velocity is given by v=12t-3t^(2) , where v is in m//s and t is in seconds. If at =0, the particle is at the origin, find the velocity at t=3 s .
AAKASH INSTITUTE-MOTION IN STRAIGHT LINE-Assignment (SECTION - J)
