A2 OCR Chemistry; Energy

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Short quiz to test your energy knowledge
Kellie Mayes-Barwick
FlashCards por Kellie Mayes-Barwick, atualizado more than 1 year ago
Kellie Mayes-Barwick
Criado por Kellie Mayes-Barwick mais de 7 anos atrás
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Questão Responda
What is the definition for Lattice Enthalpy, (∆leH°)? is the enthalpy change that accompanies the formation of one mole of an ionic lattice from its gaseous ions under standard conditions
What is the definition of Standard Enthalpy of Formation, (∆fH°)? is the enthalpy change that accompanies the formation of 1 mole of a compound from its constituent elements in their standard states -usually exothermic for an ionic compound because bonds are formed
What is the definition for First Ionisation Energy, (∆I1H°)? is the energy change that accompanies the removal of one mole of electrons from one mole of gaseous atoms -endothermic process because the e- being lost has to overcome the attraction from the nucleus in order to leave the atom
What is the definition for the first electron affinity, (∆EA1H°)? is the opposite of ionisation energy, the addition of e- rather than the removal of e- is the energy change associated with the addition of one more of electrons, to form one mole of gasepus atoms from one mole pf gaseous 1- ions
What is the definition for the Standard Enthalpy Change of Solution, (∆solH°)? is the enthalpy chamge that takes place when one mole of a solute is completrly dissolved in water under standard conditions two processess take place when a solid dissolves: 1. Ionic lattice breaks down 2. Free ions become part of solution (hydration) -lattice enthalpy has a negative sign and is exothermic
What is the definition for the Standard Enthalpy Change of Hydration, (∆hydH°)? is the enthalpy change that takes place when dissolving one mole of gaseous ions in water break down of the ionoc lattice has a positive sign and is endothermic Ionic lattices dissolve in polar solvents such as, water Energy is released when new bonds form between water and the ions
What dictates the size of the lattice enthalpy? magnitude of lattice enthalpy depends on: 1. Size of ions involved 2. Charges on the ions 3. Ionic bond strength (dependent of ionic size and charge) -Smaller ions (can get closer together, have smaller ionic radius) attracts one another more strongly, gives rise to more exothermic lattice enthalpy values -Ions with higer charges have stronger electrostatic attractions and so more exothermic lattice enthalpy values most exothermic values are from, small ions with a high charge applies to enthalpy of hydration (so ions with water molecules)
What is the definition of entropy, S? is the quantitive measure of the degree of disorder in a system the more disorded the particles are in a system, the higher the entropy of the system solid has a low disorder compared to gas
What is the definition of Standard Entropy, S°? of a substance is the entropy content of one mole of the substance under standard conditions have the units, J K-1 mol-1 all substances above 0K possess a certain degree of disorder because they are in constant motion, so: 1. entropy, S, is always a positive number 2. at 0K, entropy is 0 for perfect crystals more probable a more disorded system will be found instead of a more ordered system more spreading out of energy= higher entropy more random arrangements of particles= higher entropy
What is the Standard Entropy Change of Reaction, ∆S°? is the entropy change that accompanies a reaction in the molar quantities expressed in a chemical equation under standard conditions, all reactants and products being in their standard states entropy can change during the course of a chemical reaction, noted as a change in entropy although there is a tendency towards higher entropy, it is possible for entropy to decrease, for ∆S to be negative. E.g: Water to Ice, disordered liquid becomes a more ordered solid, has lower levels of energy dispersal ∆S = sum of S°products- sum of ∆S reactants change makes a system more random = ∆S is + change makes a system more ordered = ∆S is -
How is entropy affected by temperature? Entropy of pure substances increase with increasing temperature values are given per K-1 (because entropy values are dependent on temp) -arrangement of particles at higher temp becomes more random -Entropy of solids < liquids < gases
How do the number of gaseous molecules affect the entropy? numbrr of gaseous molecules changes during a reaction then entropy increases increase in gaseoua molecules= increase in entropy decrease in gaseous molecules= decrease in entropy
What is free energy change, ∆G? is the balance between, enthalpy, entropy and temperature for a process: ∆G = ∆H - T∆S a process can take place spontaneously when ∆G < ∆ for a process to occur spontaneously entropy must increase, however there are many reactions that happen spontaneously that would seem to lower energy
What is the total change in entropy? ∆S°total= ∆S°system -∆S°surroundings reactions that have a decrease in entropy can happen spontaneously if the change in entropy of the surroundings is positive enough the make the total change is entropy positive
How is the Gibb's equation and Free Energy Change associated? energy that becomes 'free' during a reaction is known as Gibbs' free energy after theoretical physicist and mathematician, John Willard Gibbs dependent on total entropy, enthalpy changes that occur and temperature for reactions to occure spontaneously, ∆G must be negative ∆G = ∆H - T∆S ∆S°total= ∆S - (∆H÷T) rearranged to: -T∆Stotal = ∆H - T∆S converted to Gibbs equation: ∆G = -T∆S
How can you use Gibbs equation to predict feasibility of reactions? -Large increases in entropy will cause decreases in ∆G, because the term -T∆S will become larger -Large negative values for ∆H(highly exothermic reactions), will result in more negative values for ∆G If a highly exothermic reaction causes a large decrease in entropy, ∆G, may be positive, in which case the change would not be spontaneous
in summary of last flashcard: -exothermic reactions are generally spontaneous-negative values of ∆H is still able to make ∆G negative, even if the entropy change is positive -endothermic changes are only positive if the entropy changes are positive and the temperature is high enough to make T∆S large and positive, i.e greater than ∆H
What are the limitations of using ∆G to predict feasibility of reactions? -calculating values ale of ∆G gives a theoretical value for whether a reaction will occur spontaneously -If a reaction is found to have a negative value of ∆G, it does not mean it will go on to react -whether or not a reaction process also depends on kinetic factors: 1. Reaction may have a high Ea 2. Rate of reaction may be very slow Read cross that have a positive value of ∆G are considered not feasible, but can be made to take place by changing the temperaturtemperaturen of the reaction

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