Calculate the cryoscopic constant in `(K Kg mol^(-1))` of cyclohexane. Given that its heat of fusion is `2630J//mol` and it freezing point is `6.6^(@)C`.

Calculate the cryscopic constant of a solvent, If its latent heat of fusion is 180.75 kg mol^(-1) and freezing point 16.6^@C .

Calculate the cryscopic constant of a solvent, If its latent heat of fusion is 180.75 kg mol^(-1) and freezing point 16.6^@C .

Latent heat of fusion of ice is 6kJ mol^(-1) . Calculate the entropy change in the fusion of ice.

Calculate the molal depression constant of a solvent which has a. Freezing point 16.6^(@)C and latent heat of fusion 180.75 J g^(-1) . b. Freezing point 20.0^(@)C and latent heat of fusion 200.00 J g^(-1) .

Calculate the molal depression constant of a solvent which has a. Freezing point 16.6^(@)C and latent heat of fusion 180.75 J g^(-1) . b. Freezing point 20.0^(@)C and latent heat of fusion 200.00 J g^(-1) .

Calculate the molal depression constant of a solvent which has a. Freezing point 16.6^(@)C and latent heat of fusion 180.75 J g^(-1) . b. Freezing point 20.0^(@)C and latent heat of fusion 200.00 J g^(-1) .

Latent heat of fusion of ice is 6 kJ mol^(-1) . Calculate the entropy change in the fusion of ice.

Calculate the mass of compound (molar mass = 256 g mol^(-1) ) to be dissolved in 75 g of benzene to lower its freezing point by 0.48 K(K_(f) = 5.12 " K kg " mol^(-1)) .