A particle moves in the `x-y` the accoding to the equation, `r = (hati + 2hatj) A cos omegat`. The motion of the particle is

A particle move a distance x in time t according to equation x = (t + 5)^-1 . The acceleration of particle is proportional to.

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 along X-axis in such a way that its coordinate X varies with time t according to the equation x = (2-5t +6t^(2))m . The initial velocity of the particle is

The displacement of a particle represented by the equation y= 3 cos((pi)/(4)-2 omega t) . The motion of the particle is

A point mass oscillates along the x-axis according to the law x=x_(0) cos(omegat-pi//4) . If the acceleration of the particle is written as a=A cos(omegat+delta) then ,

A particle move along the Z -axis accoding to the equation z = 5 + 12 cos(2pit + (pi)/(2)) , where z is in cm and t is in seconds. Select the correct alternative (s)-

The displacement of particle along the X-axis is given by x= a sin^(2) omega t . The motion of the particle corresponds to………..

A particle moves in the x-y plane. It x and y coordinates vary with time t according to equations x=t^(2)+2t and y=2t . Possible shape of path followed by the particle is

A particle moves in the xy plane with a constant acceleration 'g' in the negative-direction. Its equation of motion is y = ax-bx^(2) , where a and b are constants. Which of the following are correct?

A particle is acted simultaneouosly be mutually perpendicular simple harmonic motion x= a cos omega t" and "y= a sin omega t . The trajectory of motion of the particle will be………