360972 A wooden ball of density \(\rho\) is immersed in water of density \(\rho_{0}\) to depth \(h\) and then released. The height \(H\) above the surface of water upto which the ball jump out of water is

360973 A uniform rod \(A B, 12 {~m}\) long weighing 24 \(kg\) , is supported at end \(B\) by a flexible light string and a lead weight (of very small size) of 12 \(kg\) attached at end \(A\).

The rod floats in water with one-half of its length submerged. Find the volume of the rod. [Take \(g=10 {~m} / {s}^{2}\), density of water \(=1000 {~kg} / {m}^{3}\) ]

360974 A body measures \(5\;N\) in air and \(2\;N\) when put in water. The buoyant force is

360975 The spring balance \(A\) reads \(2\;kg\) with a block of mass \(m\) suspended from it. \(A\) balance \(B\) reads 5 \(kg\) when a beaker with liquid is put on the pan of the balance. The two balances are now so arranged that the hanging mass is inside the liquid in a beaker as shown in figure.

360972 A wooden ball of density \(\rho\) is immersed in water of density \(\rho_{0}\) to depth \(h\) and then released. The height \(H\) above the surface of water upto which the ball jump out of water is

360973 A uniform rod \(A B, 12 {~m}\) long weighing 24 \(kg\) , is supported at end \(B\) by a flexible light string and a lead weight (of very small size) of 12 \(kg\) attached at end \(A\).

The rod floats in water with one-half of its length submerged. Find the volume of the rod. [Take \(g=10 {~m} / {s}^{2}\), density of water \(=1000 {~kg} / {m}^{3}\) ]

360974 A body measures \(5\;N\) in air and \(2\;N\) when put in water. The buoyant force is

360975 The spring balance \(A\) reads \(2\;kg\) with a block of mass \(m\) suspended from it. \(A\) balance \(B\) reads 5 \(kg\) when a beaker with liquid is put on the pan of the balance. The two balances are now so arranged that the hanging mass is inside the liquid in a beaker as shown in figure.

360972 A wooden ball of density \(\rho\) is immersed in water of density \(\rho_{0}\) to depth \(h\) and then released. The height \(H\) above the surface of water upto which the ball jump out of water is

360973 A uniform rod \(A B, 12 {~m}\) long weighing 24 \(kg\) , is supported at end \(B\) by a flexible light string and a lead weight (of very small size) of 12 \(kg\) attached at end \(A\).

The rod floats in water with one-half of its length submerged. Find the volume of the rod. [Take \(g=10 {~m} / {s}^{2}\), density of water \(=1000 {~kg} / {m}^{3}\) ]

360974 A body measures \(5\;N\) in air and \(2\;N\) when put in water. The buoyant force is

360975 The spring balance \(A\) reads \(2\;kg\) with a block of mass \(m\) suspended from it. \(A\) balance \(B\) reads 5 \(kg\) when a beaker with liquid is put on the pan of the balance. The two balances are now so arranged that the hanging mass is inside the liquid in a beaker as shown in figure.

360972 A wooden ball of density \(\rho\) is immersed in water of density \(\rho_{0}\) to depth \(h\) and then released. The height \(H\) above the surface of water upto which the ball jump out of water is

360973 A uniform rod \(A B, 12 {~m}\) long weighing 24 \(kg\) , is supported at end \(B\) by a flexible light string and a lead weight (of very small size) of 12 \(kg\) attached at end \(A\).

The rod floats in water with one-half of its length submerged. Find the volume of the rod. [Take \(g=10 {~m} / {s}^{2}\), density of water \(=1000 {~kg} / {m}^{3}\) ]

360974 A body measures \(5\;N\) in air and \(2\;N\) when put in water. The buoyant force is

360975 The spring balance \(A\) reads \(2\;kg\) with a block of mass \(m\) suspended from it. \(A\) balance \(B\) reads 5 \(kg\) when a beaker with liquid is put on the pan of the balance. The two balances are now so arranged that the hanging mass is inside the liquid in a beaker as shown in figure.