A weighted glass tube is floating in a liquid with 20cm of its length immresed. It is pushed down through a certain distance and then released. Show that up and down motion executed by the glass tube is SHM and find the time period of vibration. Given `g=980cm s^(-2)`.

A weighted glass tube is floated in a liquid with 20 cm of its length immersed. It is pushed down through a certain distance and then released. Compute the time period of its vibration.

A pole is floating in a liquid with 80 cm of its length immersed. It is pushed doun a certain distance and then released. Time period of vertical oscillation is

A pole is floating in a liquid with 80 cm of its length immersed. It is pushed doun a certain distance and then released. Time period of vertical oscillation is

A glass tube is floating in a liquid with 30 cm of its length immersed in the liquid. If the glass tube is pushed down and released, then calculate the time period of vibration of glass tube.

A vertical U-tube of uniform cross-section contains water upto a height of 2.45 cm. show that if the water on one side is decpressed and then released, its up and down motion in the tube is SHM and calculate its time period. Given g=980cms^(-2) .

A vertical U tube of uniform cross-section contains water up to a heigth of 0.5m . If water on one side is depressed a little and then released its motino up and down the two sides of the tube is SHM. Calculate (i) time period (ii) angular grequency of vibration. g=10ms^(2) .

A vertical U tube contains a liquid of density rho , length of the liquid in the tube is 2H. The liquid is displaced slightly and released. Show that the liquid will execute SHM. Also find its time period. Take liquid to be ideal.

If the maximum speed and acceleration of a particle executing SHM is 20 cm//s and 100pi cm//s^2 , find the time period od oscillation.