Energetics
1) Know that chemical reactions in which heat energy is given out are described as exothermic, and those in which heat energy is taken in are described as endothermic
2) Describe simple calorimetry experiments for reactions such as combustion, displacement, dissolving and neutralisation
3) Calculate the heat energy change from a measured temperature change using the expression Q = mc T
4) Calculate the molar enthalpy change ( H) from the heat energy change, Q
* 5) Draw and explain energy level diagrams to represent exothermic and endothermic reactions
* 6) Know that bond-breaking is an endothermic process and that bond-making is an exothermic process
* 7) Use bond energies to calculate the enthalpy change during a chemical reaction
2) Describe simple calorimetry experiments for reactions such as combustion, displacement, dissolving and neutralisation
3) Calculate the heat energy change from a measured temperature change using the expression Q = mc T
4) Calculate the molar enthalpy change ( H) from the heat energy change, Q
* 5) Draw and explain energy level diagrams to represent exothermic and endothermic reactions
* 6) Know that bond-breaking is an endothermic process and that bond-making is an exothermic process
* 7) Use bond energies to calculate the enthalpy change during a chemical reaction
rates of reaction
8) Describe experiments to investigate the effects of changes in surface area of a solid, concentration of a solution, temperature and the use of a catalyst on the rate of a reaction
9) Describe the effects of changes in surface area of a solid, concentration of a solution, pressure of a gas, temperature and the use of a catalyst on the rate of a reaction
10) Explain the effects of changes in surface area of a solid, concentration of a solution, pressure of a gas and temperature on the rate of a reaction in terms of particle collision theory
11) Know that a catalyst is a substance that increases the rate of a reaction, but is chemically unchanged at the end of the reaction
12) Know that a catalyst works by providing an alternative pathway with lower activation energy
* 13) Draw and explain reaction profile diagrams showing H and activation energy
9) Describe the effects of changes in surface area of a solid, concentration of a solution, pressure of a gas, temperature and the use of a catalyst on the rate of a reaction
10) Explain the effects of changes in surface area of a solid, concentration of a solution, pressure of a gas and temperature on the rate of a reaction in terms of particle collision theory
11) Know that a catalyst is a substance that increases the rate of a reaction, but is chemically unchanged at the end of the reaction
12) Know that a catalyst works by providing an alternative pathway with lower activation energy
* 13) Draw and explain reaction profile diagrams showing H and activation energy
reversible reactions and equilibria
14) Know that some reactions are reversible and this is indicated by the symbol ⇌ in equations
15) Describe reversible reactions such as the dehydration of hydrated copper(II) sulfate and the effect of heat on ammonium chloride
* 16) Know that a reversible reaction can reach dynamic equilibrium in a sealed container
* 17) Know that the characteristics of a reaction at dynamic equilibrium are: the forward and reverse reactions occur at the same rate, the concentrations of reactants and products remain constant.
* 18) Understand why a catalyst does not affect the position of equilibrium in a reversible reaction
* 19) Know the effect of changing either temperature or pressure on the position of equilibrium in a reversible reaction: an increase (or decrease) in temperature shifts the position of equilibrium in the direction of the endothermic (or exothermic) reaction, an increase (or decrease) in pressure shifts the position of equilibrium in the direction that produces fewer (or more) moles of gas. References to Le Chatelier's principle are not required
15) Describe reversible reactions such as the dehydration of hydrated copper(II) sulfate and the effect of heat on ammonium chloride
* 16) Know that a reversible reaction can reach dynamic equilibrium in a sealed container
* 17) Know that the characteristics of a reaction at dynamic equilibrium are: the forward and reverse reactions occur at the same rate, the concentrations of reactants and products remain constant.
* 18) Understand why a catalyst does not affect the position of equilibrium in a reversible reaction
* 19) Know the effect of changing either temperature or pressure on the position of equilibrium in a reversible reaction: an increase (or decrease) in temperature shifts the position of equilibrium in the direction of the endothermic (or exothermic) reaction, an increase (or decrease) in pressure shifts the position of equilibrium in the direction that produces fewer (or more) moles of gas. References to Le Chatelier's principle are not required
