Final answer:
The enthalpy of combustion of the fuel is calculated by determining the amount of heat absorbed by the water, which is 4.184 kJ. This heat is released by burning 20 g of fuel, leading to an enthalpy of combustion of 0.2092 kJ/g for the fuel.
Step-by-step explanation:
To calculate the enthalpy of combustion of the fuel in kJ/g, we can use the information given about the temperature rise of water when the fuel is burned. The formula to find the amount of heat (q) absorbed by the water is q = mass × specific heat capacity × temperature change. Applying the data given:
- mass of water (mwater) = 200 g
- specific heat capacity of water (cwater) = 4.184 J/g°C
- temperature change (ΔT) = 5 °C
The amount of heat absorbed by the water when the fuel is burned is:
qwater = mwater × cwater × ΔT
= 200 g × 4.184 J/g°C × 5 °C
= 4184 J
= 4.184 kJ
The fuel's mass is 20 g, so the enthalpy of combustion per gram of fuel is:
ΔHcombustion = qwater / mass of fuel
= 4.184 kJ / 20 g
= 0.2092 kJ/g
This value represents the amount of heat released per gram of the fuel when it is burnt.