Enthalpy
Cards (46)
- EnthalpyA measure of the heat energy in a chemical system
- Chemical systemThe atoms, molecules, or ions making up the chemicals
- Enthalpy cannot be measured, but enthalpy changes can
- Enthalpy changeThe difference in the enthalpies of the reactants and products in a chemical reaction
- Enthalpy change can be positive or negative, depending on whether the products contain more or less energy than the reactants
- Conservation of energyEnergy cannot be created or destroyed
- SystemThe chemicals - the reactants and products
- SurroundingsThe apparatus, the laboratory, and everything that is not the chemical system
- UniverseEverything, including both system and surroundings
- Exothermic changeEnergy transfer from the system to the surroundings
- Endothermic changeEnergy transfer from the surroundings to the system
- In an exothermic change, the chemical system releases heat energy to the surroundings, and the temperature of the surroundings increases
- In an endothermic change, the chemical system takes in heat energy from the surroundings, and the temperature of the surroundings decreases
- Activation energyThe minimum energy required for a reaction to take place
- Reactions with small activation energies take place very rapidly, while reactions with very large activation energies may take place extremely slowly or not at all
- Standard conditionsStandard pressure of 100 kPa, standard temperature of 298 K, and standard concentration of 1 mol dm^-3 for solutions
- Standard enthalpy change of reactionThe enthalpy change that accompanies a reaction in the molar quantities shown in a chemical equation under standard conditions
- Standard enthalpy change of formationThe enthalpy change that takes place when one mole of a compound is formed from its elements under standard conditions
- All elements have an enthalpy change of formation of 0 kJ mol^-1
- Standard enthalpy change of combustionThe enthalpy change that takes place when one mole of a substance reacts completely with oxygen under standard conditions
- Standard enthalpy change of neutralisationThe energy change that accompanies the reaction of an acid by a base to form one mole of H2O(l) under standard conditions
- The value of the standard enthalpy change of neutralisation is the same for all neutralisation reactions
- Kelvin scale of temperatureThe temperature scale used in science, where 0 K is absolute zero and 1 K rise is the same as a 1°C rise
- MassThe quantity measured by weighing the materials that are changing temperature
- Specific heat capacityThe energy required to raise the temperature of 1 g of a substance by 1 K
- For water, the specific heat capacity is 4.18 J g^-1 K^-1
- Temperature changeThe change in temperature of the surroundings, measured using a thermometer
- Energy change of the surroundingsCalculated from three quantities: mass, specific heat capacity, and temperature change
- Mass of the surroundings (m)Measured by weighing the materials that are changing temperature
- Specific heat capacity of the surroundings (c)The energy required to raise the temperature of 1 g of a substance by 1K
- Good conductors of heat, such as metals, have small values of c. Insulators of heat such as foam plastic, have large values of c.
- In most experiments, you will be measuring the temperature change of water or aqueous solutions. For water, c=4.18J/g·K
- Temperature change of the surroundings (ΔT)Determined from the thermometer readings: ΔT=T(final)-T(initial)
- Heat energy (q)Calculated using the equation: q=m·c·ΔT
- Calculating an energy change
- Demonstrate knowledge, understanding and application of calculating energy changes from experiments
- Determination of enthalpy changes directly
- Practical techniques for measuring mass, specific heat capacity, and temperature change
- The data book value for ΔH of methanol combustion is -726 kJ/mol, while the experimental value is -514 kJ/mol. This difference is due to factors like heat loss, incomplete combustion, and non-standard conditions.
- Techniques like using draught screens and oxygen gas input can minimize errors in enthalpy change experiments.
- Average bond enthalpyThe energy required to break one mole of a specified type of bond in a gaseous molecule
- Bond enthalpies are always endothermic and have positive enthalpy values.
- The actual bond enthalpy can vary depending on the chemical environment of the bond.