The specific heat (or the amount of heat required to raise the temperature of a unit mass of a substance by 1 degree Celsius) of copper is about 0.386 J/g/degree Celsius. This means that if we supply 0.386 J of energy to 1 gram of copper, its temperature will increase by 1 degree Celsius.
In this question, we are given 2 kg or 2,000 g of copper and the temperature changes from 10 degree Celsius...
The specific heat (or the amount of heat required to raise the temperature of a unit mass of a substance by 1 degree Celsius) of copper is about 0.386 J/g/degree Celsius. This means that if we supply 0.386 J of energy to 1 gram of copper, its temperature will increase by 1 degree Celsius.
In this question, we are given 2 kg or 2,000 g of copper and the temperature changes from 10 degree Celsius to 110 degree Celsius. The amount of heat required is calculated as:
Heat requirement = mass x specific heat x temperature change
= 2,000 gm x 0.386 J/gm/degree C x (110 - 10) degree C
= 77,200 J = 77.2 kJ.
Thus, 77.2 kJ of heat energy is required to heat 2 kg of copper from 10 degree Celsius to 110 degree Celsius.
Hope this helps.
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