A glass container with an insulating cover with a surface area of ( R +150)cm2 and (R+10)mm thick is filled with ice at 0 °C and placed in a second vessel maintained at a temperature of (R+ 80)°C. Find the mass of the ice that melts per minute when the flow of heat becomes steady. Specific latent heat of ice = 3.36×105J/kg and K for glass is 1W/mK. R= 83
A glass container with an insulating cover with a surface area of ( R +150)cm2 and (R+10)mm thick is filled with ice at 0 °C and placed in a second vessel maintained at a temperature of (R+ 80)°C. Find the mass of the ice that melts per minute when the flow of heat becomes steady. Specific latent heat of ice = 3.36×105J/kg and K for glass is 1W/mK. R= 83
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A glass container with an insulating cover with a surface area of ( R +150)cm2 and (R+10)mm thick is filled with ice at 0 °C and placed in a second vessel maintained at a temperature of (R+ 80)°C. Find the mass of the ice that melts per minute when the flow of heat becomes steady. Specific latent heat of ice = 3.36×105J/kg and K for glass is 1W/mK.
R= 83
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