For the system shown in the figure, the cylinder on left has a mass (M) of 25 kg, cross-sectional area 20 cm2 and thickness 5 cm. It is connected to a spring of spring constant 1880 N/m. The piston on the right has mass m(=5 kg) and cross-sectional area 4 cm2. Initially heights of water column in both cylinders are equal and pistons are in equilibrium. The minimum mass m′ (in kg) to be kept on m so that water just spills out from the left is (g=10 m/s2)

For the system shown in the figure, the cylinder on left has a mass (M

1.	For the system shown in the figure, the cylinder on left has a mass (M) of 25 kg, cross-sectional area 20 cm2 and thickness 5 cm. It is connected to a spring of spring constant 1880 N/m. The piston on the right has mass m(=5 kg) and cross-sectional area 4 cm2. Initially heights of water column in both cylinders are equal and pistons are in equilibrium. The minimum mass m′ (in kg) to be kept on m so that water just spills out from the left is (g=10 m/s2)
Answer» For the system shown in the figure, the cylinder on left has a mass $(M)$ of $25 kg$ , cross-sectional area $20 {cm}^{2}$ and thickness $5 cm$ . It is connected to a spring of spring constant $1880 N/m$ . The piston on the right has mass $m (= 5 kg)$ and cross-sectional area $4 {cm}^{2}$ . Initially heights of water column in both cylinders are equal and pistons are in equilibrium. The minimum mass $m^{'}$ (in $kg)$ to be kept on $m$ so that water just spills out from the left is $(g = 10 {m/s}^{2})$

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