A solid sphere a cone and a cylinder are floating in water. All have same mass, density and radius. Let `f_(1)f_(2)`,and `f_(3)` are the fraction of their volumes inside the water and `h_(1),h_(2)` and `h_(3)` are depths inside water. Then

In the reaction of F_2 and H_2O , water act as_____.

If a cylindrical wooden piece of density 750 kg m^(-3) is floating in water, what fraction of the length of the cylinder of inside the water ?

If a sphere and a cone oh height 'h' have same radius and same volume , then find ratio of 'r' to 'h':

A boat floats on water with three fourth of its volume inside water. Density of water is 10^(3)kg//m^(3) find the density of the material of the boat.

A block of wood floats in water kept in a vessel with two-third of its volume inside water.The vessel is placed in a lift having an upward acceleration 1.2m/s^(2) .Now the fraction of volume inside water is found to be (4)/(n) . What is the value of n ?

Number of moles of water in 1L of H_(2)O with density 1g//cm^(3) are

A thermometer uses density of water as thermometric property. Actual reading in thermometer is height of water (h) which inversely proportional to the density of water (d) . In certain temp range is symmetrical ablout maximum. Two identical bodies (of same mass and specific heat) at different temp T_(1) and T_(2) show the same reading of height h_(1)=h_(2) in the thermometer. The bodies are brought in contact and allowed to reach the equilibrium. The thermometric reading height of water for final equilibrium state h_(f) satisfies

Asolid cone of radius r and height h is placed over a solid cylinder having same base radius and height as that of a cone,. The total surface area of the combined solid is pi [sqrt(r^(2) + h^(2)) +3r +2h]