What is the amount of heat required to raise the temperature of a 0.02 kg of ice cube from \(-10^oC\) to \(10^oC\) ?
[specific latent heat of fusion of ice = 3.34 x \(10^5\) \(Jkg^-1\), Specific heat capacity of water = 4200 \(Jkg^-1\) \(k^-1\)
Specific heat capacity of ice = 2100 \(Jkg^-1\) \(k^-1\)
- 6680 J
- 1680 J
- 7520 J
-
7940 J
The correct answer is: D
Explanation
Quantity of heat required to raise the temperature of the ice cube from \(-10^oC\) to \(0^oC\)
βH=mcβΊΓΈ = 0.02 Γ 2100 Γ 0 -(-10)
β H = 0.02 Γ 2100 Γ (0 + 10) = 0.02 Γ 2100 Γ 10
β H = 420 J
quantity of heat required to melt ice at \(0^oC\)
β H = mL = 0.02 Γ 3.34 Γ \(10^5\)
βH=6680 j
Quantity of heat required to raise the temperature of the melted ice cube (water) from \(0^oC\) to \(-10^oC\)
βH=mcβΊΓΈ = 0.02 Γ 4200 Γ (10-0)
βH = 0.02 Γ 4200 Γ 10
βH = 840j
;420 + 6680 + 840 = 7940 j
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