Control of Chemical Reactions. Thermodynamic Control of Reactions Enthalpy Bond Energies – Forming stronger bonds favors reactions. – Molecules with strong.

Slides:

Advertisements

Similar presentations

Chapter 16 Spontaneity, entropy and free energy. Spontaneous l A reaction that will occur without outside intervention. l We cant determine how fast.

Advertisements

Chemical Thermodynamics

Chapter 16 Spontaneity, entropy and free energy. Spontaneous l A reaction that will occur without outside intervention. l We cant determine how fast.

Entropy and Free Energy Chapter 19. Laws of Thermodynamics First Law – Energy is conserved in chemical processes neither created nor destroyed converted.

Control of Chemical Reactions. Thermodynamic Control of Reactions Enthalpy Bond Energies – Forming stronger bonds favors reactions. – Molecules with strong.

A spontaneous reaction (or favourable change) is a change that has a natural tendency to happen under certain conditions. Eg. The oxidation of iron (rust)

Chapter 14 ENERGY. Sunlight The sun is the source of most of the energy on Earth Sun is a nuclear fusion reactor, creates 4x10 26 W energy. 1.73x10 17.

Control of Chemical Reactions. Thermodynamic Control of Reactions Enthalpy Bond Energies – Forming stronger bonds favors reactions. – Molecules with strong.

Thermodynamics Chapter 19 Liquid benzene Production of quicklime Solid benzene ⇅ CaCO 3 (s) ⇌ CaO + CO 2.

Announcements If you don’t have a clicker with you, sign in after class If you don’t have a clicker with you, sign in after class Tutoring hours this week:

Entropy and the 2nd Law of Thermodynamics

Chapter 6 Metabolism and Energy.

Thermodynamics Chapter st Law of Thermodynamics Energy is conserved.  E = q + w.

First Law of Thermodynamics Enthalpy -  H, HfHf Second Law Third Law Entropy  S, Free Energy GG Spontaneity n Chap 18. Thermodynamics and Equilibrium.

An introduction to Cellular Processes. Learning Objectives SWBAT: Explain why all biological systems require constant energy input to maintain organization,

Metabolism Chapter 8 Review.

Energy Changes in Chemical Reactions -- Chapter First Law of Thermodynamics (Conservation of energy)  E = q + w where, q = heat absorbed by system.

CHEMICAL THERMODYNAMICS The Second Law of Thermodynamics: The is an inherent direction in which any system not at equilibrium moves Processes that are.

Thermodynamics Chapter 19 Brown-LeMay. I. Review of Concepts Thermodynamics – area dealing with energy and relationships First Law of Thermo – law of.

Chemical Thermodynamics Chapter Gibbs Free Energy and a Bit More About Entropy.

Chapter 19 Chemical Thermodynamics HW:

Kinetics and Thermodynamics of Simple Chemical Processes 2-1 Chemical thermodynamics: Is concerned with the extent that a reaction goes to completion.

Gibbs and the Law of Entropy

Thermodynamics Mr. Leavings. Objectives Use the laws of thermodynamics to solve problems, identify energy flow within a system, determine the classification.

Chapter 19 Spontaneity, entropy and free energy (rev. 11/09/08)

Chapter 20: Chemical Reactions and Energy

Section 19.1 Entropy and the Three Laws of Thermodynamics

General Information "Thermodynamics", is the study of the energy changes or transfers accompanying physical and chemical processes "Thermodynamics", is.

Thermodynamics / Free Energy & ATP

Metabolism The total of all reactions in a cell. Components of Metabolism Catabolism Breakdown of large molecules into smaller ones Energy is released.

Entropy. 1 st Law of Thermodynamics Energy is neither ____________ nor ____________  The energy of the universe is constant  Energy just changes from.

Chemical Change: Energy, Rate and Equilibrium Thermodynamics: study of energy, work and heat Kinetic energy: energy of motion Potential energy: energy.

Entropy and Gibbs Free Energy Chemistry Mrs. Coyle.

 Energy can be neither created nor destroyed 2 nd Law of Thermodynamics: Entropy of the universe is increasing.

The Advanced Chemical Engineering Thermodynamics The first law of thermodynamics Q&A_-4- 10/06/2005(4) Ji-Sheng Chang.

Thermodynamics. Free Energy When a system changes energy, it can be related to two factors; heat change and positional/motion change. The heat change.

ENTROPY AND CHEMICAL REACTIONS. SPONTANEITY  Basically the law of conservation of energy  energy can be neither created nor destroyed  i.e., the energy.

 State Function (°)  Property with a specific value only influenced by a system’s present condition  Only dependent on the initial and final states,

© University of South Carolina Board of Trustees Overview Energy (  E = w + q ) ●work ( w ) ●heat ( q ) Enthalpy (  H =  E + P  V) Entropy ( S ) Gibb.

Entropy – Randomness & Disorder Mr Nelson

An Introduction to Metabolism AP Biology. Metabolism The emergent property of life that arises from interactions between molecules within the orderly.

Extraction of Pure Elements from Nature Which elements are easy?

Gibbs Free Energy Third Law of Thermodynamics Standard Molar Entropy (S°) Gibbs Free Energy Equation.

Entropy and Free Energy. Learning Objectives  Use the Gibbs free-energy equation to determine whether a reaction is spontaneous or not.  Understand.

Thermodynamics Will a reaction happen?. Energy Substances tend to react to achieve the lowest energy state. Most chemical reactions are exothermic. Doesn’t.

Energy Changes in Chemical Reactions -- Chapter First Law of Thermodynamics (Conservation of energy)  E = q + w where, q = heat absorbed by system.

Spontaneous and Nonspontaneous Processes - Entropy.

Reaction Spontaneity. 1. Spontaneous Process First Law of Thermodynamics- “Conservation of Energy” – Energy can change form but it cannot be created or.

Define internal energy, work, and heat. internal energy: Kinetic energy + potential energy Heat: energy that moves into or out of the system because of.

Chapter 17 Notes1 Chapter 17 Thermodynamics: Entropy, Free Energy and Equilibrium 1. review of terms; definitions; 2. Is it spontaneous? 3. entropy; some.

Thermodynamics the study of energy transformations and transfer THREE QUESTIONS to be addressed: 1. Will a reaction occur when two substances are mixed.

ATP & Thermodynamics AP Biology Chapter 8.

Chapter 8: Metabolism.

Metabolism and Energy SBI4U1.

Section 19.1 Entropy and the Three Laws of Thermodynamics

Dissolution of NH4NO3 What does it mean?

15-5 Reaction Spontenaity

An Introduction to Metabolism

Entropy and the 2nd Law of Thermodynamics

Cellular Energy and Metabolism

Entropy, Spontaneity and Free Energy

Entropy and Gibbs Energy Day 1

Dissolution of NH4NO3 What does it mean?

Extraction of Pure Elements from Nature

Entropy and Free Energy

Entropy and Chemical Reactions

WARM UP: Any questions on test review?

THE 2ND LAW OF THERMODYNAMICS:

Chapter 3 An Introduction to Organic Reactions and Their Mechanism

Extraction of Pure Elements from Nature

Presentation transcript:

Control of Chemical Reactions

Thermodynamic Control of Reactions Enthalpy Bond Energies – Forming stronger bonds favors reactions. – Molecules with strong bonds are more stable. Entropy Randomness – Reactions that increase randomness are favored. – Forming gases favors reactions.

The Laws of Thermodynamics 1st Law: Energy is Conserved 2 nd Law: Any “spontaneous” process leads to an increase in entropy of the universe.

Entropy A measure of randomness. Units of J/K.

Entropy Change First define: SystemSurroundings

Entropy Change For the System

Entropy Change For the System If the system gets more random,  S is positive. (Favors the reaction) If the system gets more ordered,  S is negative. (Disfavors the reaction)