Presentation is loading. Please wait.

Presentation is loading. Please wait.

REPRESENTING ENTHALPY CHANGES. 1. ΔH Notation 2. Thermochemical Equation 3. Potential Energy Diagram.

Published byGriffin Farmer Modified over 8 years ago

Similar presentations

Presentation on theme: "REPRESENTING ENTHALPY CHANGES. 1. ΔH Notation 2. Thermochemical Equation 3. Potential Energy Diagram."— Presentation transcript:

1 REPRESENTING ENTHALPY CHANGES

2 1. ΔH Notation 2. Thermochemical Equation 3. Potential Energy Diagram

3  the ΔH is written outside the balanced chemical equation RECALL: + ΔH means ENDOTHERMIC - ΔH means EXOTHERMIC

4 2 SO 2 + O 2  2SO 3 ΔH = -197.8 kJ “When 2 moles of SO 2 react with 1 mole of O 2, 2 moles of SO 3 are produced and 197.8 kJ of energy are released.” 1)What is the molar enthalpy of formation for SO 3 ? 2)What will the ΔH be if 4 moles of SO 2 react with excess O 2 ?

5  a balanced chemical equation which includes the ΔH for the rxn as either a reactant (LEFT side) or product (RIGHT side) exothermic - ΔH energy quantity as a PRODUCT endothermic +ΔH energy quantity as a REACTANT

6 1) Write a thermochemical equation for the following: N 2 + 3H 2  2 NH 3 ΔH = -92.38 kJ (i.e., ΔH notation)

7 2) Write the thermochemical equation using ΔH notation: CO 2 + 393.5 kJ  C + O 2 (i.e., thermochemical equation)

8  all stoichiometric ratios apply to the energy component 2 Fe + 3 CO 2 + 6.39 kJ  Fe 2 O 3 + 3 CO “When 2 mol of Fe react with 3 mol of CO 2, 6.39 kJ of energy are consumed. 1 mol of Fe 2 O 3 and 3 mol of CO are produced”.

9 1) Rewrite the thermochemical equation so that the coefficient in front of the Fe is a 1 2) How many kJ are required to completely react 8.00 g of Fe?

10 Exothermic Energy Rxn Coordinate

11 Exothermic Energy Rxn Coordinate

12 Exothermic Energy Rxn Coordinate Energy of the Reactants Energy of the products -ΔH energy released

13 Endothermic Energy Rxn Coordinate

14 Endothermic Energy Rxn Coordinate Energy of the Reactants Energy of the products +ΔH energy absorbed

15 Construct a PE diagram for the reaction: N 2 + O 2 + 180.8 kJ  2NO

16 Endothermic Energy Rxn Coordinate N 2 + O 2 2NO ΔH = 180.8 kJ

Download ppt "REPRESENTING ENTHALPY CHANGES. 1. ΔH Notation 2. Thermochemical Equation 3. Potential Energy Diagram."

Similar presentations

Thermochemistry AP Chem Ch. 6.

Thermochemistry AP Chem Ch. 6.
Thermochemistry Part 3 - Enthalpy and Thermochemical Equations.

Thermochemistry Part 3 - Enthalpy and Thermochemical Equations.
Topic: Potential Energy Curve Do Now: p.26. Spontaneous Processes no outside intervention =physical or chemical change that occurs with no outside intervention.

Topic: Potential Energy Curve Do Now: p.26. Spontaneous Processes no outside intervention =physical or chemical change that occurs with no outside intervention.
Stoichiometry The calculation of quantities using chemical reactions

Stoichiometry The calculation of quantities using chemical reactions
Chapter #8 Chemical Quantities.

Chapter #8 Chemical Quantities.
∆H = H final - H initial The stoichiometric coefficients in thermochemical equations must be interpreted as numbers of moles. 1 mol of C 5 H 12 reacts.

∆H = H final - H initial The stoichiometric coefficients in thermochemical equations must be interpreted as numbers of moles. 1 mol of C 5 H 12 reacts.
Is this a balanced eq ? 332. 332 We only need ONE information during the reaction (reacted or produced)

Is this a balanced eq ? We only need ONE information during the reaction (reacted or produced)
Enthalpy EQ: How do you predict the sign of delta H?

Enthalpy EQ: How do you predict the sign of delta H?
Using Standard Molar Enthalpies of Formation SCH4U0.

Using Standard Molar Enthalpies of Formation SCH4U0.
ENDOTHERMIC AND EXOTHERMIC REACTIONS. EXOTHERMIC REACTIONS Chemical Reactions that RELEASE heat with the products. You may see an exothermic reaction.

ENDOTHERMIC AND EXOTHERMIC REACTIONS. EXOTHERMIC REACTIONS Chemical Reactions that RELEASE heat with the products. You may see an exothermic reaction.
{ Exothermic & Endothermic REACTIONS Energy in Reactions.

{ Exothermic & Endothermic REACTIONS Energy in Reactions.
and cooking with chemicals

and cooking with chemicals
Representing Enthalpy Change 1.  I will be able to use proper scientific terminology to describe  I will be able to use various methods to represent.

Representing Enthalpy Change 1.  I will be able to use proper scientific terminology to describe  I will be able to use various methods to represent.
Stoichiometry II. Solve stoichiometric problems involving moles, mass, and volume, given a balanced chemical reaction. Include: heat of reaction Additional.

Stoichiometry II. Solve stoichiometric problems involving moles, mass, and volume, given a balanced chemical reaction. Include: heat of reaction Additional.
Thermochemistry THERMOCHEMISTRY THERMOCHEMISTRY, is the study of the heat released or absorbed by chemical and physical changes. 1N = 1Kg.m/s 2, 1J =

Thermochemistry THERMOCHEMISTRY THERMOCHEMISTRY, is the study of the heat released or absorbed by chemical and physical changes. 1N = 1Kg.m/s 2, 1J =
Heat & Enthalpy Changes

Heat & Enthalpy Changes
Lesson 4 – Representing Enthalpy Changes. Method One THERMOCHEMICAL EQUATIONS WITH ENERGY TERMS THERMOCHEMICAL EQUATIONS WITH ENERGY TERMS a balanced.

Lesson 4 – Representing Enthalpy Changes. Method One THERMOCHEMICAL EQUATIONS WITH ENERGY TERMS THERMOCHEMICAL EQUATIONS WITH ENERGY TERMS a balanced.
Lecture B. Day 4 Activities: Exothermic or endothermic? Objectives –Be able to identify exothermic and endothermic reactions based on temperature change.

Lecture B. Day 4 Activities: Exothermic or endothermic? Objectives –Be able to identify exothermic and endothermic reactions based on temperature change.
ENTHALPY, HESS’ LAW, AND THERMOCHEMICAL EQUATIONS.

ENTHALPY, HESS’ LAW, AND THERMOCHEMICAL EQUATIONS.
Measuring Heat reaction

Measuring Heat reaction

Similar presentations

Ads by Google