In figure, block `A` hangs by a cord form spring balance `D` and it submerged in a liquid `C` contained in a beaker `B`. The mass of the beaker is `1 kg`. The mass of the liquid is `1.5 kg`. Balance `D` reads `7.5 kg`. The volume of block `A` is `0.003 m^(3)`. The mass per unit volume of the liquid is

As Fig. shows, S_(1) and S_(2) , are spring balances. Block A is hanging from spring balance S_(1) and immersed in liquid L which is contained in beaker B . The mass of beaker B is 1 kg and mass of liquid L is 1.5 kg . Balances S_(1) and S_(2) reads 2.5 kg and 7.5 kg , respectively. What will be the readings of S_(1) and S_(2) when block A is pulled up out of the liquid. Find the reading of S_(1) and S_(2)?

As Fig. shows, S_(1) and S_(2) , are spring balances. Block A is hanging from spring balance S_(1) and immersed in liquid L which is contained in beaker B . The mass of beaker B is 1 kg and mass of liquid L is 1.5 kg . Balances S_(1) and S_(2) reads 2.5 kg and 7.5 kg , respectively. What will be the readings of S_(1) and S_(2) when block A is pulled up out of the liquid. Find the reading of S_(1) and S_(2)?

As, block of mass 5 kg is attached to spring balance reading of spring balance will be

A beaker contains 262.5 "cm"^3 of a certain liquid and weighs 420 g. If the mass of an empty dry beaker is 210 g, find the density of the liquid.

If the spring balance graded in gravitational units (CGS syste1n) shows 20 as the reading, then mass of the body is "________" kg.

A block of side 0.5m is 30% submerged in a liquid of density 1 gm//(c c) . Then find mass of an object placed on block for complete submergence.

A block of side 0.5m is 30% submerged in a liquid of density 1 gm//(c c) . Then find mass of an object placed on block for complete submergence.

A light spring balance hangs from the hook of the other light spring balance and a block of mass M kg hangs from the former one. Then the true statement about the scale reading is :