1 / 10

Entropy and Free Energy

Entropy and Free Energy. 19.4. After reading Section 19.4, you should know:. How to calculate the amount of free energy of a reaction How to use the free energy to determine whether a reaction will be spontaneous or not. Entropy – a quantitative measure of the disorder of a system

dutch
Download Presentation

Entropy and Free Energy

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Entropy and Free Energy 19.4

  2. After reading Section 19.4, you should know: • How to calculate the amount of free energy of a reaction • How to use the free energy to determine whether a reaction will be spontaneous or not

  3. Entropy – a quantitative measure of the disorder of a system • Symbol = ΔS0 (Joule / Kelvin* mol) • ΔS0= ΔS0 (products) -ΔS0 (reactants) • Table 19.2 on page 558

  4. Practice • Using Table 19.2, determine the standard entropy change(ΔS0 ) for the following reaction. 2NO(g) + O2(g) 2NO2(g) • ΔS0 = ΔS0 (products) -ΔS0 (reactants) ΔS0 = -145.2 J/K • *** Remember to multiply the ΔS0by 2 since • you have 2 mol of NO and NO2

  5. Gibbs Free Energy – the energy available to do work • Symbol = ΔG0 (kJ / mol) • ΔG0 = ΔG0 (products) -ΔG0 (reactants) • Table 19.4 on page 563

  6. Gibbs Free Energy • If the ΔH (enthalpy) and the ΔS (entropy) are known, the (free energy) can be found by: • ΔG0 = ΔH -T ΔS0 • T = temp in Kelvin • Must convert units!!! • ΔG0 (kJ / mol) • ΔH0 (kJ / mol) • Δ S0 (Joule / Kelvin*mol)

  7. Spontaneous or not?? • Spontaneous reactions release free energy • ΔG0 is negative • The system loses free energy • ΔH0 = negative • Δ S0 = positive

  8. Spontaneous or not?? • Nonspontaneous reactions absorb free energy • ΔG0 is positive • The system needs the free energy to make the reaction happen • ΔH0 = positive • Δ S0 = negative ** A system may be spontaneous under one set of conditions and nonspontaneous under another (example – if the temperature changes)

  9. Values in the book • Free Energy (ΔG0) values – pg 563 • Enthalpy (ΔH0)values – pg 316 • Entropy (Δ S0)values – pg 558

  10. After reading Section 19.4, you should know: • How to calculate the amount of free energy of a reaction • How to use the free energy to determine whether a reaction will be spontaneous or not

More Related