chemical engineer studying the properties of fuels placed 1.690 g of a hydrocarbon in the bomb of a calorimeter and filled it with O2 gas. The bomb was immersed in 2.550 L of water and the reaction initiated. The water temperature rose from 20.00°C to 23.55°C. If the calorimeter (excluding the water) had a heat capacity of 403 J/K, what was the heat of reaction for combustion (qV) per gram of the fuel? (d for water = 1.00 g/mL; c for water = 4.184 J/g·°C.) Enter your answer in scientific notation.

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DeniceSandidge DeniceSandidge · Answer 1 · 2019-09-26T09:52:54+02:00

Answer:

heat of combustion is 23258.17 J/g or 23.258 kJ/g

Explanation:

given data

temperature range = 20.00°C to 23.55°C

so temperature change is = 3.55°C

heat capacity = 403 J/K

so here heat absorbed by calorimeter is

heat absorbed = heat capacity × change temperature

heat absorbed = 403 × 3.55

heat absorbed = 1430.65 J

and

volume of water is = 2.550 L = 2550 mL

and water density = 1.00 g/mL

so mass of water = volume × density

mass of water = 2550 × 1

mass of water = 2550 g

and

specific heat capacity for water is here = 4.184 J/g-°C

and temperature change = 3.55°C

so heat absorbed by water = mass × specific heat × temperature change

heat absorbed by water = 2550 × 4.184 × 3.55 = 37875.66 J

so

so heat absorbed by water and calorimeter is 1430.65 J + 37875.66 J

heat absorbed by water and calorimeter is 39306.31 J

so this heat give combustion 1.690 g fuel

so for 1 gram heat given = [tex]\frac{39306.31}{1.690}[/tex]

heat of combustion is 23258.17 J/g or 23.258 kJ/g