A block of silver of mass 4 kg haning from a string is immersed in a liquid of relative density 0.72. If releative density of silver is 10, then tension in the string will be (take `g = 10 m//s^(2)`)

A block of silver of mass 4 kg hanging from a string is immersed in a liquid of relative density 0.72 . If relative density of silver is 10 , then tension in the string will be

A block of silver of mass 4 kg hanging from a string is immersed in a liquid of relative density 0.72 . If relative density of silver is 10 , then tension in the string will be

The relative density of silver is 10.8. Find its density.

A metallic sphere of mass 3 kg in air is held by a string so as to be completely immersed in a liquid of relative density 0.8. The relative density of metallic sphere is 10. The tension in the string is :-

A silver block of mass 3.1 kg is connected to a string and is then immersed in a liquid of relative density 0.82 . Find the tension in the string , if relative density of silver is 10.5

The relative density of silver in 10.5 what in the density of silver in SI unit.

A wooden block of mass 1kg and density 800 Kg m^(-3) is held stationery, with the help of a string, in a container filled with water of density 1000 kg m^(-3) as shown in the figure. If the container is moved upwards with an acceleration of 2 m s^(-2) , then the tension in the string will be ( take g=10ms^(-2) )

A 1kg stone at the end of 1m long string is whirled in a vertical circle at a constant speed of 4m//s . The tension in the string is 6N , when the stone is at (g=10m//s^(2))

A 1 kg stone at the end of 1 m long string is whirled in a vertical circle at constant speed of 4 m/sec. The tension in the string is 6 N when the stone is at (g =10m//sec^(2))

A 10 kg steel ball is suspended by two strings as shown. The tensions in the two strings are: (g=9.8 m//s^(2) )