Figure. gives the x-t plot of a particle executing one-dimensional simple harmonic motion. (You will learn about this motion in more detail in Chapter14). Give the signs of position, velocity and acceleration variables of the particle at `t=0.3s, 1.2s, -1.2s`.

A particle is moving in a vertical line whose equation of motion is given by s = 32 + 46t+9t^2 where 's' is measured in meters and 't' is measured in seconds. Find the velocity and acceleration of the particle at t=3 sec.

A particle is executing simple harmonic motion with a time period T. At time t = 0, it is at its position of equilibrium. The kinetic energy-time graph of the particle will look like

A particle is in linear simple harmonic motion between two points A and B, 10 cm apart. Take the direction from A to B, as positive direction and give the signs of velocity and acceleration on the particle when it is (i) at the end B, (ii) at 3 cm away from A going towards B.

The maximum acceleration of a particle executing simple harmonic motion is 0.296m*s^(-2) , its time period is 2s and the displacement from the equilibrium position at the beginning of its motion is 0.015m. Determine the equation of motion of the particle.

A particle moves in a circle of radius 1.0 cm at a speed given by v = 2.0 t, where v is in cm cdot s^(-1) and t in seconds. Find the radial acceleration of the particle at t = 1 s.