Summary C7: Energy Changes

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C7 Energy Changes
C7.1 - Exothermic and Endothermic Reactions

Exothermic Reactions: chemical reactions that transfer energy from the chemicals to
the surroundings (eg. combustion, neutralisation)

Endothermic Reactions: chemical reactions that transfer energy to the chemicals from
the surroundings (eg. thermal decomposition, reaction of citric acid and sodium
hydrogen carbonate)

❖ In exothermic reactions, the energy of the reactants is higher than the energy of
the products, as energy is given to the surroundings
❖ In endothermic reactions, the energy of the reactants is lower than the energy of
the products, as energy is absorbed from the surroundings




C7.2 - Using Energy Transfers from Reactions
❖ exothermic reactions can be used in things like warm packs or self-heating cans,
as they release energy to heat up the surroundings:

single-use hand warmers reusable hand warmers

iron turns into hydrated iron oxide in the a supersaturated sodium ethanoate-water
exothermic reaction, as sodium chloride solution is placed in a plastic pack with a
acting as the catalyst metal disk, and when pressed, the metal
disk starts the exothermic reaction and
the sodium ethanoate recrystallise
❖ in self-heating cans, the typical equation is:

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❖ endothermic reactions can be used in things like ice packs, as they take energy
from the surroundings, cooling it:
➢ chemical cold packs normally contain ammonium nitrate and water,
which are combined from their separate packs when needed to carry out
the endothermic reaction

C7.3 - Reaction Profiles
❖ energy is released to the surroundings in exothermic reactions, so the products
have lower energy levels than the reactants:




❖ energy is taken in from the surroundings in endothermic reactions, so the
products have a higher energy level than the reactants: