An amount of ice of mass 10^{-3} kg and temp | vedclass

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Question

(B) The total heat required is the sum of heat absorbed in five stages:$1$. Heating ice from $-10^{\circ} C$ to $0^{\circ} C$: $\Delta Q_1 = m \cdot S

Vedclass · Accepted Answer

$3043$

Vedclass · Answer

(B) The total heat required is the sum of heat absorbed in five stages:$1$. Heating ice from $-10^{\circ} C$ to $0^{\circ} C$: $\Delta Q_1 = m \cdot S_{	ext{ice}} \cdot \Delta T = 10^{-3} 	imes 2100 	imes 10 = 21 \ J$$2$. Melting ice at $0^{\circ} C$ to water at $0^{\circ} C$: $\Delta Q_2 = m \cdot L_f = 10^{-3} 	imes 3.35 	imes 10^5 = 335 \ J$$3$. Heating water from $0^{\circ} C$ to $100^{\circ} C$: $\Delta Q_3 = m \cdot S_{	ext{water}} \cdot \Delta T = 10^{-3} 	imes 4180 	imes 100 = 418 \ J$$4$. Vaporizing water at $100^{\circ} C$ to steam at $100^{\circ} C$: $\Delta Q_4 = m \cdot L_v = 10^{-3} 	imes 2.25 	imes 10^6 = 2250 \ J$$5$. Heating steam from $100^{\circ} C$ to $110^{\circ} C$: $\Delta Q_5 = m \cdot S_{	ext{steam}} \cdot \Delta T = 10^{-3} 	imes 1920 	imes 10 = 19.2 \ J$Total heat $\Delta Q_{	ext{total}} = \Delta Q_1 + \Delta Q_2 + \Delta Q_3 + \Delta Q_4 + \Delta Q_5 = 21 + 335 + 418 + 2250 + 19.2 = 3043.2 \ J$.Rounding to the nearest integer,we get $3043 \ J$.

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