How should 1 kg of water at 50^(@)C be d...

How should `1 kg` of water at `50^(@)C` be divided in two parts such that if one part is turned into ice at `0^(@)C`. It would release sufficient amount of heat to vapourize the other part. Given that latent heat of fusion of ice is `3.36xx10^(5) J//Kg`. Latent heat of vapurization of water is `22.5xx10^(5) J//kg` and specific heat of water is `4200 J//kg K`.

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How should 1 kg of water at 5^@C be divided into two parts so that if one part turned into ice at 0^@C , it would release enough heat to vapourize the other part? Latent heat of steam =540 cal//g and latent heat of ice =80 cal//g .

How should 2kg of water at 60^(@)C be divided so that when one part of it is turned into ice at 0^(@)C it would give out sufficient heat to vaporize the other part? (Specific latent heat of fusionof ice =336xx10^(3)J kg^(-1) and specific latent heat of vaporization of steam =2250xx10^(3)Jkg^(-1) )

What is meant by saying that the latent heat of fusion of ice is 3.34 xx 10^(5)J//kg ?

What is meant by saying that the latent heat of vaporisation of water is 22.5 xx 10^(5) J//kg ?

The specific latent heat of fusion of ice is 336 xx 10^3 J/kg. What does this statement mean?

M' kg of water at 't' ^@C is divided into two parts so that one part of mass 'm' kg when converted into ice 0^@C would release enough heat to vapourise the other part, then m/M is equal to [Specific heat of water = 1 calg^-1^@C^-1 Latent heat of fusion of ice= 80 calg^-1 Latent heat of steam = 540 cal g^-1 ]

Find the result of mixing 0.5 kg ice at 0^@C with 2 kg water at 30^@C . Given that latent heat of ice is L=3.36xx10^5 J//kg and specific heat of water is 4200 J//kg//K .

Find the result of mixing 0.5 kg ince at 0^@C with 2 kg water at 30^@C . Given that latent heat of ice is L=3.36xx10^5 J//kg and specific heat of water is 4200 J//kg//K .

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