A hollow object of volume V is immersed in a tank. The object is tied to the bottom of the tank by two wires which make an angle `30^(@)` with the horizontal as shown in figure. The object would float if it was set free and one forth volume is immersed in liquid of density `rho_(0)`. The tension in the wires is

A hollow sphere of mass M and radius r is immersed in a tank of water (denstiy rho_(w) ). The sphere would float if it were set free. The sphere is tied to the bottom of the tank by two wires which makes angle 45^(@) with the horizontal as shown in the figure. The tension T_(1) in the wire is :

A hollow sphere of mass M and radius r is immersed in a tank of water (denstiy rho_(w) ). The sphere would float if it were set free. The sphere is tied to the bottom of the tank by two wires which makes angle 45^(@) with the horizontal as shown in the figure. The tension T_(1) in the wire is :

A vessel contains two immiscible liquids of density rho_(1)=1000 kg//m^(3) and rho_(2)=1500kg//m^(3) . A solid block of volume V=10^(3)m^(3) and density d=800kg//m^(3) is tied to one end of a string and the outer end is tied to the bottom of the vessel as shown in figure. The block is immersed with two fifths of its volume in the liquid of lower density. The entire system is kept in an elevator which is moving upwards with an acceleration of a=g/2 . Find the tension in the string.

A vessel contains two immiscible liquids of density rho_(1)=1000 kg//m^(3) and rho_(2)=1500kg//m^(3) . A solid block of volume V=10^(3)m^(3) and density d=800kg//m^(3) is tied to one end of a string and the outer end is tied to the bottom of the vessel as shown in figure. The block is immersed with two fifths of its volume in the liquid of lower density. The entire system is kept in an elevator which is moving upwards with an acceleration of a=g/2 . Find the tension in the string.

A vessel contains two immiscible liquids of densit rho_(1)=1000 kg//m^(3) and rho_(2)=1500kg//m^(3) . A solid block of volume V=10^(3)m^(3) and density d=800kg//m^(3) is tied to one end of a string and the outer end is tied to the bottom of the vessel as shown in figure. The block is immersed with two fifths of its volume in the liquid of lower density. The entire system is kept in an elavator which is moving upwards with an acceleration of a=g/2 . Find the tension in the string. brgt

An object of volume V is submerged in a liquid of density rho . It has flat bottom of area A which is at depth of H in the liquid and a dome shaped top find the total force of liquid acting on the top of the object.

An object of volume V is submerged in a liquid of density rho . It has flat bottom of area A which is at depth of H in the liquid and a dome shaped top find the total force of liquid acting on the top of the object.

An object of volume V is submerged in a liquid of density rho . It has flat bottom of area A which is at depth of H in the liquid and a dome shaped top find the total force of liquid acting on the top of the object.

A body of density p floats with a volume V_(s) of its total volume V immersed in one liquid of density rho_(1) and with the remainder of volume V_(2) immersed in another liquid of density rho where. rho_(1) gt rho_(2) find V_(1) and V_(2)