Obtain the equation for SHM of the Y-projection of the radius vector of the revolving particle P in case (a) and (b) of figure.

Figures depicts two circular motions. The radius of the circle, the period of revolution, the initial position and the sense of revolution are indicated on the figures. Obtain the simple harmonic motions of the x-projection of the radius vector of the rotating particle P in each case.

Figures 14.25 correspond to two circular motions. The radius of the circle, the period of revolution, the initial position, and the sense of revolution (i.e. clockwise or anti-clockwise) are indicated on each figure. Obtain the corresponding simple harmonic motions of the x-projection of the radius vector of the revolving particle P, in each case.

Figure shows the circular motion of a particle. The radius of the circle, the period, sense of revolution and the initial position are indicated on the figure. The simple harmonic motion of the x-projection of the radius vector of the rotating particle P is..........

Obtain the force law for SHM from the displacement of SHM particle.

In the figure, what will be the sign of the velocity of the point P_1 , which is the projection of the velocity of the reference particle P. P is moving in a circle of radius R in anti-clockwise direction. .

Obtain an equation of orbital time period of satellite revolves around the earth.

Obtain equation of circle in Centre of origin and radius r = 6.

Obtain an expression for the position vector of centre of mass of a system n particles in two dimension.