Presentation is loading. Please wait.

Presentation is loading. Please wait.

17-2 Driving Force of Reactions

Published byLeony Sudirman Modified over 5 years ago

Similar presentations

Presentation on theme: "17-2 Driving Force of Reactions"— Presentation transcript:

1 17-2 Driving Force of Reactions

2 p. 526 Are most reactions endothermic or exothermic?

3 p. 526 Are most reactions endothermic or exothermic?
Something other than enthalpy (ΔH) determines whether endothermic occurs spontaneously A system that can go from one state to another WITHOUT an enthalpy change does so by becoming more ___________________

4 p. 526 Are most reactions endothermic or exothermic?
Something other than enthalpy determines whether endothermic occurs spontaneously A system that can go from one state to another WITHOUT and enthalpy change does so by becoming more DISORDERED

5 2NH4NO3(s)  2N2 (g) + 4H2O(l) + O2 (g)
Right side is more random arrangement Tendency in nature is an increase in disorder What is a disordered system? (p. 527)

6 2NH4NO3(s)  2N2 (g) + 4H2O(l) + O2 (g)
Right side is more random arrangement Tendency in nature is an increase in disorder What is a disordered system? (p. 527) Lacks arrangement of its parts Entropy (s) -

7 2NH4NO3(s)  2N2 (g) + 4H2O(l) + O2 (g)
Right side is more random arrangement Tendency in nature is an increase in disorder What is a disordered system? (p. 527) Lacks arrangement of its parts Entropy (S) - measure of randomness of particles Solids Liquids gases

8 2NH4NO3(s)  2N2 (g) + 4H2O(l) + O2 (g)
Right side is more random arrangement Tendency in nature is an increase in disorder What is a disordered system? (p. 527) Lacks arrangement of its parts Entropy (S) - measure of randomness of particles Solids – low entropy Melt – Liquids, increase entropy Evaporate – Gas, increase entropy

9 Entropy Change ΔS Difference of products and reactants
Increase in entropy = + ΔS Decrease in entropy = - ΔS Making solutions increases ΔS Mixing gases Liquid into another liquid Solids dissolved in liquid Fig (p. 528)

10 p. 528 Processes are driven in 2 directions:
Toward lowest enthalpy (lowest ΔH) OR Highest entropy (highest ΔS) Free Energy (G) – combined H and S function Only change can be measured Free energy change – ΔG Equation:

11 p. 528 Processes are driven in 2 directions:
Toward lowest enthalpy (lowest ΔH) OR Highest entropy (highest ΔS) Free Energy (G) – combined H and S function Only change can be measured Free energy change – ΔG Equation: ΔG = ΔH - T ΔS (T in Kelvin)

12 Table p. 529 ΔG = ΔH - T ΔS Each can be positive or negative
When change in different directions one will usually predominate

13 Example p. 530

14 More Order or More disorder? ΔS = + or -?
2 Fe2O3(s) --> 4 Fe(s) + 3 O2(g) W(s) + 6 CO(g) --> W(CO)6(s) C6H12O6(s) --> C6H12O6(aq) H2O(g) --> H2O(ℓ)

Download ppt "17-2 Driving Force of Reactions"

Similar presentations

Entropy Section 16-2.

Entropy Section 16-2.
A cup of hot tea is made and is left on a table. What do you expect to spontaneously happen to the temperature of the tea?

A cup of hot tea is made and is left on a table. What do you expect to spontaneously happen to the temperature of the tea?
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)

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)
Thermochemistry Study of the transfer of energy in chemical reactions.

Thermochemistry Study of the transfer of energy in chemical reactions.
Chemical Thermodynamics Chapter 19 (except 19.7!).

Chemical Thermodynamics Chapter 19 (except 19.7!).
Entropy and Free Energy. Free Energy and Spontaneous Reactions Many times, the energy (heat) released from a chemical reaction can be used to bring about.

Entropy and Free Energy. Free Energy and Spontaneous Reactions Many times, the energy (heat) released from a chemical reaction can be used to bring about.
 Section 1 – Thermochemistry  Section 2 – Driving Force of Reactions.

 Section 1 – Thermochemistry  Section 2 – Driving Force of Reactions.
Energy Chapter 16.

Energy Chapter 16.
Thermochemistry. The study of heat changes in chemical reactions Exothermic: reactions that release heat Endothermic: reactions that absorb heat Enthalpy:

Thermochemistry. The study of heat changes in chemical reactions Exothermic: reactions that release heat Endothermic: reactions that absorb heat Enthalpy:
6.04.  A spontaneous change is a change in a system that proceeds without a net input of energy from an outside source.  Needs some activation energy.

6.04.  A spontaneous change is a change in a system that proceeds without a net input of energy from an outside source.  Needs some activation energy.
Aim: What is entropy?.

Aim: What is entropy?.
Section 18.4 Entropy. What you need to know - Entropy -Gibbs Free Energy -Enthalpy -Calculating Gibbs Free Energy -Determine if a rxn is spontaneous or.

Section 18.4 Entropy. What you need to know - Entropy -Gibbs Free Energy -Enthalpy -Calculating Gibbs Free Energy -Determine if a rxn is spontaneous or.
Spontaneous Reactions Proceed forward on their own without outside or external cause. Proceed forward on their own without outside or external cause. Certain.

Spontaneous Reactions Proceed forward on their own without outside or external cause. Proceed forward on their own without outside or external cause. Certain.
Entropy and Free Energy. Before we begin… Do you have: Guided reading completed for sections 18.1 – 18.3 Section Review 18.3 Practice Problems completed.

Entropy and Free Energy. Before we begin… Do you have: Guided reading completed for sections 18.1 – 18.3 Section Review 18.3 Practice Problems completed.
AP Chapter 19.  Energy can not be created nor destroyed, only transferred between a system and the surroundings.  The energy in the universe is constant.

AP Chapter 19.  Energy can not be created nor destroyed, only transferred between a system and the surroundings.  The energy in the universe is constant.
The Driving Forces of Reactions. In chemistry we are concerned with whether a reaction will occur spontaneously, and under what conditions will it occur.

The Driving Forces of Reactions. In chemistry we are concerned with whether a reaction will occur spontaneously, and under what conditions will it occur.
Thermochemistry, Hess’s Law and Driving Forces Review p. 531-549- Define: temperature, heat, specific heat, calorie and joule, exothermic, endothermic,

Thermochemistry, Hess’s Law and Driving Forces Review p Define: temperature, heat, specific heat, calorie and joule, exothermic, endothermic,
Spontaneity. Recap of Enthalpy Describes chemical potential energy stored in matter. Can only measure changes in enthalpy. Enthalpy is arithmetical. –Reverse.

Spontaneity. Recap of Enthalpy Describes chemical potential energy stored in matter. Can only measure changes in enthalpy. Enthalpy is arithmetical. –Reverse.
WU 5/3 PCl 5  PCl 3 + Cl 2, 1. At equilibrium [PCl 3 ]= 6.4x10 -3, [Cl 2 ]=2.5x10 -2, [PCl 5 ]=4.0x10 -3 a. Write the equilibrium expression for this.

WU 5/3 PCl 5  PCl 3 + Cl 2, 1. At equilibrium [PCl 3 ]= 6.4x10 -3, [Cl 2 ]=2.5x10 -2, [PCl 5 ]=4.0x10 -3 a. Write the equilibrium expression for this.
Thermodynamics Part 5 - Spontaneity. Thermodynamics Thermodynamics = the study of energy changes that accompany physical and chemical changes. Enthalpy.

Thermodynamics Part 5 - Spontaneity. Thermodynamics Thermodynamics = the study of energy changes that accompany physical and chemical changes. Enthalpy.

Similar presentations

Ads by Google