One end of a V-tube containing mercury is connected ot a suction pump and the other end to atmosphere. The two arms of the tube are inclined to horizontal at an angle of `45^(@)` each. A small pressure difference is created between two columns when the suction pump is removed. Will Neglect capillary and viscous forces. Find the time period of oscillation.

One end of V-tube containing mercury is connected to a suction pump and the other end to atmosphere. The two arms of the tube are inclined to horizental at an angle of 45^(@) each. A small pressure difference is created between two columns when the suction pump is removed. Will the column of mercury in V-tube execute simple harmonic motion? Neglect capillary and viscous forces. Find the time period of oscillation.

One end of V-tube containing mercury is connected to a suction grouup and the other end to atmosphere. The two arms of the tube are inclined to horizontal at an angle of 45^(@) each. A small pressure difference is created between two columns when the ssuction pump is removed. Will the column of mercuty in V-tube execute simple harmonic motion? Neglect capillary and viscous forces. Fing the time period of oscillation.

One end of a U-tube containing mercury is connected to a suction pump and the other end is connected to the atmosphere. A small pressure difference is maintained between the two columns. Show that when the suction pump is removed, the liquid in the U-tube executes SHM.

One end of a U-tube containing mercury is connected to a suction pump and the other end to atmosphere. A small pressure difference is maintained between the two columns. Show that, when the suction pump is removed, the column of mercury in the U-tube executes simple harmonic motion.