A point moves in x-y plane according to the law `x=4 sin 6t and y=4 (1- cos 6t)`. The distance travelled by the particle in 4 s is (x and y are in metre)

A particle moves in x-y plane according to the law x = 4 sin 6t and y = 4 (1-cos 6t) . The distance traversed by the particle in 4 second is ( x & y are in meters)

A particle moves in xy plane accordin to the law x=a sin w t and y=a (1- cos w t ) where a and w are costant . The particle traces.

A particule moves in x - y plane acording to rule x = a sin omega t and y = a cos omega t . The particle follows

A point moves in the plane xy according to the law x=a sin omegat , y=a(1-cos omega t) , where a and omega are positive constants. Find: (a) the distance s traversed by the point during the time tau ,

x and y co-ordinates of a particle moving in x-y plane at some instant of time are x=2t and y=4t .Here x and y are in metre and t in second. Then The distance travelled by the particle in a time from t=0 to t=2s is ……… m

A particle moves in x-y plane according to the equations x= 4t^2+ 5t+ 16 and y=5t where x, y are in metre and t is in second. The acceleration of the particle is

A particle moves in the the x-y plane according to the scheme x= 8 sin pit and y=-2 cos(^2)pit pit , where t is time. Find equation of the path of the particle. Show the path on a graph.

The displacement of a particle is moving by x = (t - 2)^2 where x is in metres and t in second. The distance covered by the particle in first 4 seconds is.

The displacement of a particle is moving by x = (t - 2)^2 where x is in metres and t in second. The distance covered by the particle in first 4 seconds is.

A particle is moving in x-y plane with y=x/2 and V_(x)=4-2t . The displacement versus time graph of the particle would be