Velocity of a particle changes from 10 `"cm.s"^(-1)` to 20 `"cm.s"^(-1)` as it covers a path of 50 cm with a uniform acceleration. Find the acceleration.

The velocity of a car travelling on a straight road is 36kmh^(-1) at an instant of time. Now travelling with uniform acceleration for 10s, the velocity becomes exactly double. If the wheel radius of the car is 25cm, then which of the following numbers is the closest to the number of revolutions that the wheel makes during this 10s?

If a particle rotates along a circular path of radius 25 cm with a frequency of 2 rps, its linear acceleration in m cdot s^(-2) unit is

From the top of a tower, two particles are dropped at an interval of 2 s . Find the relative velocity and relative acceleration of the particles during the fall . Acceleration due to gravity =g cm*s^(-2) .

The maximum velocity of a particle executing SHM is v_(m)=picm*s^(-1) and the maximum acceleration is a_(m)=pi^(2)cm*s^(-2) . Determine the time period and the amplitude of motion of the particle.

The velocity of three gas molecules are 4cm.s^-1 , 8cm.s^-1 and 12 cm.s^-1 respectively. Calculate their rms speed.

The room mean square velocity of an ideal gas in a closed vessel of fixed volume is increased from 5xx10^(4)cm*s^(-1) to 10xx10^(4)cm*s^(-1) . Which of the following statements correctly explain how the change is accomplished-

A tram is moving with an acceleration of 49 cm .s^(-2) using 50% of its motor power the remaining 50% is used up to overcome friction. Find the coefficient of friction between the wheel and the tram line.

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.

A car moves with a uniform velocity of 36 "km.h^(-1) on a straight road Then it attains a uniform acceleration and doubles its velocity in 10s. The radius of a wheel of the car it 25 cm. The number of complete rotations of the wheel in those 10s would be about

Time period and amplitude of a particle executing SHM are 2 s and 5 cm respectively. Determine its velocity and acceleration at a distacne of 3 cm from the equilibrium position.