A spherical ball of density `rho` and radius` 0.003m` is dropped into a tube containing a viscous fluid up to the 0 cm mark as shown in the figure. Viscosity of the fluid `=1.26N-s//m^(2)` and its density `rho_(L)=(rho)/(2)=1260kg//m^(3)`. Assume that the ball reaches a terminal speed at 10cm mark. The time taken by the ball to travel the distance between the 10cm and 20cm mark is `(g=10m//s^(2))`

A spherical ball of density rho and radius 0.003m is dropped into a tube containing a viscous fluid , filled up to the 0 cm mark as shown in the figure . Viscosity of the fluid =1.260 N m ^-2s^-1 and its density rho_L = rho//2 = 1260 kg m^-3 . Assume the ball reaches a terminal speed by the 10 cm mark. Find the time taken by the ball to traverse the distance between the 10 cm and 20 cm mark . [g = acceleration due to gravity = 10 ms^-2]

A spherical ball of diameter 1 cm and density 5xx10^(3)kg m^(-3) is dropped gently in a large tank containing viscous liquid of density 3xx10^(3)kgm^(-3) and coefficient of viscosity 0.1 Nsm^(-2) . The distance that the ball moves n 1 s after attaining terminal velocity is (g=10ms^(-2))

A spherical ball of diameter 1 cm and density 5xx10^(3)kg m^(-3) is dropped gently in a large tank containing viscous liquid of density 3xx10^(3)kgm^(-3) and coefficient of viscosity 0.1 Nsm^(-2) . The distance that the ball moves n 1 s after attaining terminal velocity is (g=10ms^(-2))

A ball is projected vertically up with speed 20 m/s. Take g=10m//s^(2)

A ball is projected vertically up with speed 20 m/s. Take g=10m//s^(2)

A ball is thrown up at a speed of 4.0 m/s. Find the maximum height reached by the ball. Take g=10 m//s^2 .

A ball is thrown up at a speed of 4.0 m/s. Find the maximum height reached by the ball. Take g=10 m//s^2 .

A ball is thrown up at a speed of 4.0 m/s. Find the maximum height reached by the ball. Take g=10 m//s^2 .