The number of quanta of radiation of frequency `4.98 xx 10^(14) s^(-1)` required to melt 100 g of ice are ( latent heat of melting of ice is 33 joule per g)

The number of quanta of radiation of frequncy 4.98 xx 10^(14) s^(-1) required to melt 100 g of ice are ( latent heat of melting of ice is 33 joule per g)

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 .

How much heat energy is required to melt 5 kg of ice ? Specific latent heat of ice = 336 J g^(-1)

The latent heat of fusion of ice is 330 J//g . Calculate the number of photons of radiation of frequency 5xx10^(13) s^(-1) to cause the melting of 1 mole of ice. Take h=6.6xx10^(-34) J.S. Express your answer as X xx 10^(22) , what is the value of 'X'

Heat required to convert 1 g of ice at 0^(@)C into steam at 100 ^(@)C is

Ice melts at the rate of 5 kg per hour in a cold storage when the temperature outside is 300 K. Calculate the minimum power of the motor is to be used to drive a refrigerator to just prevent the melting of ice. Specific latent heat of usion of ice =3.3 xx 10 ^(5) J kg ^(-1) .[E.Q]

The amount of heat required to raise the temperature of 75 kg of ice at 0^oC to water at 10^oC is (latent heat of fusion of ice is 80 cal/g, specific heat of water is 1 cal/ g^oC )

If m is the minimum amount of steam of 100^(@)C required to melt 12 gm ice completely, then find the value of 10cm.

If m is the minimum amount of steam of 100^(@)C required to melt 12 gm ice completely, then find the value of 10cm.

An iron ball of mass 0.2 kg is heated to 10^(@)C and put into a block of ice at 0^(@)C . 25 g of ice melts. If the latent heat of fusion of ice is 80 cal g^(-1) , then the specific heat of iron in cal g^(-1^(@))C is