3.1.8.3 Entropy

    Cards (85)

    • What does entropy measure in a system?
      Disorder or randomness
    • The second law of thermodynamics implies that the entropy of the universe as a whole is continually increasing.

      True
    • What does the Boltzmann entropy equation relate entropy to?
      Number of microstates
    • How does temperature affect entropy?
      Increases entropy
    • Higher temperatures increase entropy by providing more kinetic energy to molecules.

      True
    • Melting ice increases entropy as water molecules gain freedom of movement.

      True
    • What is the relationship between entropy and microstates?
      More microstates, higher entropy
    • What happens to entropy in an isolated system at equilibrium according to the second law?
      It is maximized
    • The Boltzmann entropy equation shows that entropy is directly proportional to the number of microstates.
      False
    • Higher temperatures increase entropy by providing more kinetic energy to molecules.
    • Order the phases of matter from lowest to highest entropy:
      1️⃣ Solid
      2️⃣ Liquid
      3️⃣ Gas
    • Match the factor with its influence on entropy:
      Phase Changes ↔️ Solid < Liquid < Gas
      Temperature ↔️ Higher temperature increases entropy
      Complexity of Molecules ↔️ More complex molecules increase entropy
      Pressure ↔️ Lower pressure increases entropy
    • An increase in entropy often favors spontaneous reactions because the products have more freedom and arrangements.
    • A positive ΔS makes ΔG more negative, favoring spontaneity.
    • A negative ΔG indicates a spontaneous reaction, while a positive ΔG indicates a non-spontaneous reaction.
    • A negative ΔGΔG indicates a spontaneous reaction
    • Dissolving salt in water is spontaneous because it has a negative ΔG
    • Entropy is a measure of the disorder or randomness of a system
    • What happens to entropy at equilibrium in an isolated system according to the second law of thermodynamics?
      Maximized at equilibrium
    • The Boltzmann entropy equation is given by S=S =kBlnΩ k_{B} \ln \Omega, where k_B is the Boltzmann constant
    • Higher temperatures increase entropy by providing more kinetic energy
    • What happens to entropy under high pressure conditions?
      Reduces
    • Higher temperature increases entropy
    • Arrange the phases of matter in order of increasing entropy.
      1️⃣ Solid
      2️⃣ Liquid
      3️⃣ Gas
    • Higher temperatures provide more kinetic energy to molecules.
    • What does a positive entropy change in a chemical reaction often favor?
      Spontaneous reactions
    • What conditions are required for the reaction N2(g)+N_{2}(g) +3H2(g)2NH3(g) 3H_{2}(g) → 2NH_{3}(g) to be spontaneous?

      Low temperature, high pressure
    • A positive Gibbs free energy (ΔG) requires energy input to make the reaction occur.

      True
    • A negative ΔS in a reaction indicates that disorder decreases, favoring the reactants.

      True
    • What does the second law of thermodynamics state about entropy in an isolated system not in equilibrium?
      Entropy increases over time
    • The second law of thermodynamics states that the entropy of an isolated system not in equilibrium will tend to increase over time
    • Arrange the phases of matter in order of increasing entropy:
      1️⃣ Solid
      2️⃣ Liquid
      3️⃣ Gas
    • Which phase of matter has the lowest entropy due to its highly ordered structure?
      Solid
    • How does lower pressure influence entropy?
      Increases it
    • Arrange the following processes in order of increasing entropy:
      1️⃣ Freezing water
      2️⃣ Melting ice
      3️⃣ Heating a gas
    • Match the entropy level with the number of microstates:
      High Entropy ↔️ Many possible arrangements
      Low Entropy ↔️ Few possible arrangements
    • The second law of thermodynamics describes the spontaneous tendency of systems to become more disordered
    • The Boltzmann entropy equation is S = k_{B} \ln \Omega</latex>, where kBk_{B} is the Boltzmann constant
    • Entropy generally increases as a substance transitions from solid to liquid
    • More complex molecules tend to have higher entropy due to the greater number of possible arrangements for their constituent atoms.
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