The acceleration of a body moving round a curve of radius 160 m at `20 ms^-1` is

Tangential acceleration of a particle moving on a circle of radius 1 m varies with time t as shown in the graph (initial velocity of particle is zer). Time after which total acceleration of particle makes an angle of 30^@ with radial acceleration is,

The acceleration of an object moving in a circle of radius R with uniform speed v is

The speed of abody moving along a circle of radius 15 cm changes from 180 rev/min to 600 rev/min in 11 s. Then the angular acceleration of the body will be

A car of mass 2000 kg rounds a curve of radius 250 m at 90 km/hr. Compute its Angular speed, centripetal acceleration and Centripetal force.

The maximum velocity and the maximum acceleration of a body moving in a simple harmonic oscillator are 2 m/s and 4 m//s^(2) . Then angular velocity will be

A car of mass 1500 kg rounds a curve of radius 250 m at 90 km/h. Calculate the centripetal force acting on it.

The maximum acceleration of a body moving is SHM is a_(0) and maximum velocity is v_(0) . The amplitude is given by

The angular speed of a particle, moving along a circle of radius 20cm, increases from 2 rad/s to 40 rad/s in 19 s. The ratio of its centripetal acceleration to tangential acceleration at the end of 19 secs

The maximum speed at which a cyclist can ride on a curved road of radius 20 m when inclined at angle of 45^@ with horizontal is.... Given, g=9.8 ms −2 . A. 10.74 m/s B. 12m/s C. 13m/s D. 14m/s

Find the acceleration due to gravity on a planet that is 10 times as massive as the Earth and with radius 20 times of the radius of the Earth.