Homes may be heated by pumping hot water through radiators. what mass of water (in g) will provide the same amount of heat when cooled from 90.7 to 39.4°c, as the heat provided when 182 g of steam is cooled from 118°c to 100.°c. (assume that the specific heat of liquid water is 4.187 j/g·°c over the given temperature range. also assume that the specific heat of water vapor above its boiling point is 2.078 j/g·°c.)

a mass of water required is mw= 1273.26 gr = 1.27376 Kg

Explanation:

Assuming that the steam also gives out latent heat, the heat provided should be same for cooling the hot water than cooling the steam and condense it completely:

Q = mw * cw * ΔTw = ms * cs * ΔTw + ms * L

where m = mass , c= specific heat , ΔT=temperature change, L = latent heat of condensation

therefore

mw = ( ms * cs * ΔTw + ms * L )/ (cw * ΔTw )

replacing values

mw = [182g * 2.078 J/g°C*(118°C-100°C) + 118 g * 2260 J/g ] /[4.187 J/g°C * (90.7°C-39.4°C)] = 1273.26 gr = 1.27376 Kg

answer:

yes

explanation:

answer:

try looking it up that is always

explanation: