Find the number of photons of radiation of frequancy `5xx10^(13)s^(-1)` that must be absorbed in order to melt one g ice when the latent heat of fusion of ice is `330J//s`.

What power is gained by a man when he eats 100 g ice in one minute ? Latent heat of fusion of ice is 80 cal/gm.

An ice box used for keeping eatables cool has a total wall area of 1m^2 and a wall thichness of 5.0 cm. The thermal cunductivity of the ice box is K=0.01 J//m^@C . It is filled with large amount of ice at 0^@C along with eatables on a dfay when the temperature is 30^@C The latent heat of fusion of ice is 334xx10^3 J//kg . The amount of ice melted in one day is ( 1 day =86,000s )

Calculate energy of one mole of photons of radiation whose frequency is 5xx 10^(14) Hz (h = 6.626 xx 10^(34)j )

The periodic time of radiation is 4 xx 10^(-10) s find wavelength wave number and frequency

A metal rod AB of length 10x has its one end A in ice at 0^@C , and the other end B in water at 100^@C . If a point P one the rod is maintained at 400^@C , then it is found that equal amounts of water and ice evaporate and melt per unit time. The latent heat of evaporation of water is 540cal//g and latent heat of melting of ice is 80cal//g . If the point P is at a distance of lambdax from the ice end A, find the value lambda . [Neglect any heat loss to the surrounding.]

2kg of ice at 20^@C is mixed with 5kg of water at 20^@C in an insulating vessel having a negligible heat capacity. Calculate the final mass of water remaining in the container. It is given that the specific heats of water & ice are 1kcal//kg//^@C and 0.5 kcal//kg//^@C while the latent heat of fusion of ice is 80kcal//kg

Energy of 1photon of gamma rays having wavelength of 2.5xx10^(-13) m will be how many times energy of radiation having wavelength of 5000 Å

1kg ice at 0^(@)C is mixed with 1kg of steam at 100^(@)C . What will be the composition of the system when thermal equilibrium is reached ? Latent heat of fusion of ice = 3.36xx 10^(6)J kg^(-1) and latent heat of vaporization of water = 2.26 xx 10^(6)J kg^(-1)