A cubical block of wood of edge 3 cm floats in water. The lower surface of the cube just touches the free end of a vertical spring fixed at the bottom of the pot. Find the maximum weight that can be put on the block without wetting it. Density of wood `=800kg//m^(3)` and spring constant of the spring `=50N//m`. Take `g=10m//s^(2)`

A cubical block of wood of edge 3 cm floats in water. The lower surface of the cube just touches the free end of a vertical spring fixed at the bottom of the pot. Find the maximum weight that can be put on the block without wetting it. Density of wood = 800 kgm^-3 and spring constant of the spring =50Nm^-1 Take g=10ms^-2 . ,

A cubical block of wood of edge a and density rho floats in water of density 2rho . The lower surface of the cube just touches the free end of a mass less spring of force constant K fixed at the bottom of the vessel. The weight W put over the block so that it is completely immersed in water without wetting the weight is

A log of wood of mass 120 Kg floats in water. The weight that can be put on the raft to make it just sink, should be (density of wood = 600 Kg//m )

A cubical block of side 0.5 m floats on water with 30% of its volume under water. What is the maximum weight that can be put on the block without fully submerging it under water? [Take, density of water = 10^(3) kg//m^(3) ]

A spring is attached to a wooden cubical block of edge 5cm and placed in a water conatiner as shown in figure. Calculate the maximum weight to be placed on the block so that it is just immersed in water completely. Density of wood =700"kg/m"^(3) , spring constant of spring =70N//m, g=10m//s^(2) . Assume that initially spring is in its normal length.

A block of mass m is released from a height h from the top of a smooth surface. There is an ideal spring of spring constant k at the bottom of the track. Find the maximum compression in the spring (Wedge is fixed)

A cubical block 'A' of mass m_(0)(=a^(3)rho=3 kg) of edge 'a' and density rho floats in a liquid of density 3rho . The lower surface of the cube just touches the free end of massless spring of spring of spring constant k(=a^(2)rho g) fixed at the bottom of the vessel. Another block 'B' of mass 'm' is lept over block 'A', so that is completely immersed in liquid without wetting the block 'B'. Then find the value of m in kg.

A cubical block of wood of length 5 cm is kept on a table top. The density of the block is 800 kg//m^3 and g = 9.8 m//s^2 . Find the pressure exerted by the wooden block on the table top.

A cubical block of wood 10 cm on a side, floats at the interface of oil and water as shown in figure. The density of oil is 0.6 g cm^(-3) and density of water is 1 g cm^(-3) . The mass of the block is

A block of mass m held touching the upper end of a light spring of force constant K as shown in figure. Find the maximum potential energy stored in the spring if the block is released suddenly on the spring.