All High School Chemistry Resources
Example Questions
Example Question #1 : Thermochemistry And Energetics
What can be said about the rates of exothermic and endothermic reactions?
Exothermic reactions are more common than endothermic reactions
None of these are valid answers
The rates of endothermic reactions are faster than the rates of exothermic reactions
Endothermic reactions are more common than exothermic reactions
The rates of exothermic reactions are faster than the rates of endothermic reactions
None of these are valid answers
The definition of an endothermic reaction is that the products have higher energy than the reactants, resulting in a positive enthalpy of reaction. For the reaction to run, there must be an input of energy. The opposite is true for exothermic reactions: the products have lower energy than the reactants, enthalpy of reaction is negative, and heat is released.
Nothing is can be definitively stated about the rates of either type of reaction without additional information, as that will depend on the specific reactions and their respective activation energies.
Example Question #513 : High School Chemistry
Which of the following is an example of an exothermic reaction?
Magma cooling to form igneous rocks
Ice melting
Water boiling
Dry ice becoming gaseous carbon dioxide
Magma cooling to form igneous rocks
In an exothermic reaction, heat has been released to the surroundings from the system. As a result, the molecules are at a lower final energy state after releasing the energy to the surroundings.
Going from a solid to a gas (as well as liquid in between) is an endothermic reaction. Energy must be absorbed in order to raise the energy of the molecules so that the phase change can take place. Boiling water, melting ice, or sublimating carbon dioxide all require an input of energy.
The opposite is observed when magma cools. The liquid magma releases energy to the surroundings, allowing it to cool and form igneous rock. The magma is essentially "freezing," turning from a liquid to a solid.
Example Question #514 : High School Chemistry
Which of the following statements is true?
Condensation of steam is an endothermic reaction
Endothermic reactions result in products with a lower internal energy
Exothermic reactions have a lower activation energy compared to the reverse endothermic reactions
Only endothermic reactions require energy in order to take place
Exothermic reactions have a lower activation energy compared to the reverse endothermic reactions
When graphically tracking the energy of a reaction, you can see that energy is always needed to start a reaction, regardless of its enthalpy. This necessary energy is called the activation energy. Exothermic reactions, however, have a lower activation energy compared to the reverse endothermic reaction. This is because there is a net energy release from an exothermic reaction because the products have less energy than the reactants. To reverse this reaction would be to go from the low energy products back to the high energy reactants, resulting in a net increase in energy (an endothermic process).
Condensation of steam is an exothermic process. Heat must be released since the high energy steam is becoming lower energy water.
Example Question #1 : Help With Endothermic And Exothermic Reactions
The combustion of propane gas in a camping stove is an example of what type of reaction?
Endothermic reaction, with heat being absorbed
Exothermic reaction, with heat being released
It depends on the temperature at which the reaction occurs
Exothermic reaction, with heat being absorbed
Endothermic reaction, with heat being released
Exothermic reaction, with heat being released
Combustion reactions occur when a compound is oxidized in a highly exothermic reaction. Most commonly, the reactant is a hydrocarbon (such as propane) and the oxidizing agent is oxygen gas. The result is a large release of heat energy, frequently visualized as a flame.
Note that exothermic reactions by definition release heat, while endothermic reactions absorb heat.
Example Question #2 : Help With Endothermic And Exothermic Reactions
Which condition is always true for an exothermic reaction?
is negative
Heat is being gained from the environment
is positive
The molecular bonds of the compound are being broken
There must be a catalyst involved
is negative
When a reaction is exothermic ("exo-" meaning out and "-thermic" having to do with heat), it means that the reaction is giving off heat into the environment. Therefore, the reactants have a net heat loss throughout the process of the reaction.
The change in enthalpy, , is a measure of the change in heat energy during a reaction. is always negative for an exothermic process because the products always have less heat energy than the reactants.
Example Question #1 : Help With Endothermic And Exothermic Reactions
Which condition is always true for an exothermic reaction?
is negative
Heat is being gained from the environment
is positive
There must be a catalyst involved
is negative
When a reaction is exothermic ("exo-" meaning out and "-thermic" having to do with heat), it means that the reaction is giving off heat into the environment. Therefore, the reactants have a net heat loss throughout the process of the reaction.
The change in enthalpy, , is a measure of the change in heat energy during a reaction. is always negative for an exothermic process because the products always have less heat energy than the reactants.
Example Question #3 : Help With Endothermic And Exothermic Reactions
Which condition is always true for an exothermic reaction?
Heat is being gained from the environment
is negative
There must be a catalyst involved
is positive
is negative
When a reaction is exothermic ("exo-" meaning out and "-thermic" having to do with heat), it means that the reaction is giving off heat into the environment. Therefore, the reactants have a net heat loss throughout the process of the reaction.
The change in enthalpy, , is a measure of the change in heat energy during a reaction. is always negative for an exothermic process because the products always have less heat energy than the reactants.
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