Heat capacity of ice: 2090 J kg-1 °C-1 Heat capacity of water (liquid): 4186 J k

Question

Heat capacity of ice: 2090 J kg-1 °C-1
Heat capacity of water (liquid): 4186 J kg-1 °C-1
Latent heat of fusion: 3.36×105 J kg-1
Latent heat of vaporization: 2.26×107 J kg -1

Give your answers to at least three significant figures. Your answers must be accurate to 1%.

How much heat energy is required to raise the temperature of 553 g of ice from a temperature of -46 °C to a temperature of -34 °C?_________ J

How much heat energy is required to raise the temperature of 553 g of water from a temperature of 16 °C to a temperature of 55 °C? ________ J

How much heat energy is required to raise the temperature of 553 g of water (initially ice) from a temperature of -46 °C to a temperature of 55 °C? _________J

How much heat energy is required to evaporate 553 g of water which is initially at a temperature of 16 °C?_______ J

Explanation / Answer

a) q= m*sice * del( t)

= 0.553 kg * 2090 J kg-1 °C-1* ( -34 -( -46) )

= 13869.240 J

b) q = m*Swater * del(t)

=0.553* 4186 J kg-1 °C-1 * ( 55-16)

=90279.462 J

c) q= m*sice * del( t) + m* latent heat + m*Swater * del(t)

=0.553*[ 2090 * ( 0-(-46) ) + 3.36×105 J kg-1 + 4186 * ( 55-0 ) ]

= 0.553*[ 96140 + 3.36×105 + 230230]

=0.553 * [662370]

=366290.610 J

d) q= m*Swater * del(t) + m* Latent heat of vaporization

= 0.553 * [ 4186* (100-16) + 2.26×107]

=0.553* [ 351624 +2.26×107]

=0.553* 22951624 J

=12692248.070 J

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