(1) 3 Fe,O, (s) + CO (g) → 2 Fe,O, (s) + CO, (g) AH° = - 47.0 kJ (2) Fe,O, (s) + 3 CO (g) → 2 Fe (s) + 3CO,(g) AH = -25.0 kJ - 25.0 kJ (3) Fe,O, (s) + CO(g) → 3 FeO (s) + CO, (g) ΔΗ - 19.0 kJ the 8. A 15.0 g sample of nickel metal is heated to 100.0 °C and dropped into 55.0 g of water, initially at 23.0 °C. Assuming that all of the heat lost by the nickel is absorbed by the water, calculate the final temperature of the nickel and water. (The specific heat of nickel = 0.444 J/g°C) %3D
Thermochemistry
Thermochemistry can be considered as a branch of thermodynamics that deals with the connections between warmth, work, and various types of energy, formed because of different synthetic and actual cycles. Thermochemistry describes the energy changes that occur as a result of reactions or chemical changes in a substance.
Exergonic Reaction
The term exergonic is derived from the Greek word in which ‘ergon’ means work and exergonic means ‘work outside’. Exergonic reactions releases work energy. Exergonic reactions are different from exothermic reactions, the one that releases only heat energy during the course of the reaction. So, exothermic reaction is one type of exergonic reaction. Exergonic reaction releases work energy in different forms like heat, light or sound. For example, a glow stick releases light making that an exergonic reaction and not an exothermic reaction since no heat is released. Even endothermic reactions at very high temperature are exergonic.
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A 15.0 g sample of nickel metal is heated to 200 degrees Celsius and dropped into 55.0g of water, initially at 23.0 degrees Celsius. Assuming that all of the heat lost by the nickel is absorbed by the water, calculate the final temperature of the nickel and water. (The specific heat of nickel = 0.444 J/g degrees Celsius)
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