What is the specific gravity of a liquid if 260 mL of the liquid has the same mass as 390 mL of water?

If S_(1) is the specific gravity of a solid with respect to a liqid and S_(2) is the specific gravity of the liquid with respect to water, then the specific gravity of the solid with respect to water is

A sodium hydroxide solution containing 40% by weight of pure NaOH has a specific gravity of 1.5. What volume (in mL) of this solution will be required in the preparation of 500 mL of a 0.45 M NaOH solution?

The specific gravity of a salt solution is 1.025. If V mL of water is added to 1 L of this solution to make its density 10.2 g mL^(-1) , what value of V in mL approxmately?

The specific gravity of a salt solution is 1.025. If V mL of water is added to 1 L of this solution to make its density 1.02 g mL^(-1) , what value of V in mL approxmately?

A U-tube of uniform cross section (see figure) is partially filled with a liquid I. Another liquid II which does not mix with liquid I is poured into one side. It is found that the liquid levels of the two sides of the tube are the same, while the level of liquid I has risen by 2cm. If the specific gravity of liquid I is 1.1, the specific gravity of liquid II must be

A U-tube of uniform cross section (see figure) is partially filled with a liquid I. Another liquid II which does not mix with liquid I is poured into one side. It is found that the liquid levels of the two sides of the tube are the same, while the level of liquid I has risen by 2cm. If the specific gravity of liquid I is 1.1, the specific gravity of liquid II must be

A U-tube of uniform cross section (see figure) is partially filled with a liquid I. Another liquid II which does not mix with liquid I is poured into one side. It is found that the liquid levels of the two sides of the tube are the same, while the level of liquid I has risen by 2cm. If the specific gravity of liquid I is 1.1, the specific gravity of liquid II must be

A solution of acid having 62% by mass of acid has specific gravity of 1.8 g. If the solution is to be diluted to attain a specific gravity of 1.2 then what volume of water should be added to 100 ml of this solution?

A solution of acid having 62% by mass of acid has specific gravity of 1.8 g. If the solution is to be diluted to attain a specific gravity of 1.2 then what volume of water should be added to 100 ml of this solution?

A body floats on a liquid of specific gravity S_(1) with f part of it immersed in that liquid. It also floats on another liquid of specific gravity S_(2) with (1 - f) part of it immersed. Prove that the specific gravity of the body = (S_(1)S_(2))/(S_(1)+S_(2)) .