1. A container of base of area S = 200 cm2 and negligible heat capacity contains a mixture of water and ice each of mass m = 1.0 kg and placed on a kerosene stove. Calorific value of kerosene is q = 7.0x104 kJ/kg. Specific heat of water is Sw = 4.2×10³ J/(kg-°C), specific latent heat of melting of ice is L; = 3.5 x 105 J/kg, specific latent heat of vaporization of water is L, = 2.5×10% J/kg, density of water is p= 1000 kg/m3. Boiling point of water is 6,= 100 °C and melting point of ice is Om = 0 °C. If n= 50% of the heat obtained from burning the kerosene is transferred to the mixture, find height of water level in the container after burning m, = 34 g of kerosene. Am; m [2hv+li+2Sw(b0m]-namk loc %3D Joc

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1. A container of base of area S = 200 cm2 and negligible heat capacity contains a mixture of water and ice each of mass m = 1.0 kg and placed on a kerosene stove. 1 Calorific value of kerosene is q = 7.0×104 kJ/kg. Specific heat of water is sw = 4.2x10³ J/(kg.°C), specific latent heat of melting of ice is L; = 3.5 x 105 J/kg, specific latent heat of vaporization of water is L, = 2.5×106 J/kg, density of water is p= 1000 kg/m3. Boiling point of water is O, = 100 °C and melting point of ice is Om = 0 °C. %3D %3D %3D %3D %3D %3D 30°C. If 7= 50% of the heat obtained from burning the kerosene is transferred to the mixture, find height of water level in the container after burning m = 34 g of kerosene. A, m[2hutli+2Sw(b-om)]-1amk locm