List of enthalpies for several kinds of reactions.

Slides:

Advertisements

Similar presentations

Thermochemistry Exothermic reactions release heat to the surroundings. Fe 2 O Al  2 Fe + Al 2 O kJ Potassium Permanganate Reaction Demo.

Advertisements

CDO Chemistry Thermodynamics 1 st Law of Thermodynamics 1 st Law – energy cannot be created or destroyed it can just change forms Energy can be.

Chapter : Chemical Reactions That Involve Heat Suggested Reading: Pages

Bomb Calorimetry (Constant Volume Calorimetry)

Molar Enthalpy of Vaporization

 Work (W) is a force acting over a distance  Universe is the system and surroundings  System is the part of the universe you are focusing on (molecules,

Hess’s Law SECTION 5.3. Hess’s Law  The enthalpy change of a physical or chemical process depends only on the initial and final conditions of the process.

Friday, Oct. 25 th : “A” Day Monday, Oct. 28 th : “B” Day Agenda  Homework questions/Quick review  Section 10.2 Quiz: “Using Enthalpy”  Section 10.3:

Standard Enthalpy Changes of Reaction Section 15.1.

It is impossible to measure enthalpy directly

The basis for calculating enthalpies of reaction is known as Hess’s law: the overall enthalpy change in a reaction is equal to the sum of enthalpy changes.

Energy: Standard Enthalpy of Formation and Reaction – Direct & Hess’s Law Enthalpy Enthalpy (H): heat flow for a chemical reaction. q constant P.

1 Hess suggested that the sum of the enthalpies (ΔH) of the steps of a reaction will equal the enthalpy of the overall reaction. Hess’s Law.

 Certain reactions cannot be measured by calorimetry ◦ Ex: slow reactions, complex reactions, hazardous chemicals…  We can substitute in other reactions.

HESS’S LAW what is it ? how is it used ? AS Chemistry.

Entry Task Monday, May 23 How many grams of HCl will you need to produce 514 kJ of energy using the following equation? CaCO 3 (s) + 2 HCl (aq) → CaCl.

16.1(b) Hess’s Law 1 2 POINT > Recall enthalpies of reaction, formation and combustion POINT > Define Hess’s Law POINT > Use Hess’s law to determine.

Hess’ Law Practice Problems 1)-79.6 kJ 2)-155 kJ 3)17.4 kJ 4)-3.70 kJ 5)-142 kJ 6) 88.1 kJ 7) kJ 8) kJ or kJ 9) -256 kJ, exo 10)

Thermochemistry Heat and Chemical Change

Hess’ Law energy changes are state functions. The amount of energy depends only on the states of the reactants and products, but not on the intermediate.

Section 4: Calculating Enthalpy Change

Industrial Chemistry Hess’s law.

Chapter 17: Thermochemistry

Enthalpy and Hess’s Law

Heat of Fusion (Hf) Q = mHf Fusion means melting/freezing

Chapter 9 Chemical Quantities in Reactions

AP CHEMISTRY NOTES Ch 6 Thermochemistry Ch 8.8 Covalent bond energies

FLOW OF ENERGY Heat, Enthalpy, & Thermochemical Equations

Things are “heating up” now!

10-4 Enthalpy (Section 10.6) And you.

How much heat is released when 4

Hess’s Law Start Finish A State Function: Path independent.

Standard Enthalpy of Formation (ΔHf°)

Can you handle the enthalpy?

Representing Energy Changes

Calculating ΔH using molar heats of formation

Hess’s Law and Standard Enthalpies of Formation

Formation Reactions Examples: C(s) + O2(g)  CO2(g)

Hess’s Law H is well known for many reactions, and it is inconvenient to measure H for every reaction in which we are interested. However, we can estimate.

Unit 5: Thermochemistry

Enthalpy of Reactions -We can describe the energy absorbed as heat at constant pressure by the change in enthalpy (ΔH) -the enthalpy of a reaction is the.

Stoichiometry Calculations involving Enthalpy

Standard Enthalpy of Formation

Standard Enthalpies of Formation

Hess’s Law 17.4.

Hess’s Law 17.4.

Hess’s Law and Standard Enthalpies of Formation Unit 10 Lesson 4

AP Chem Get Heat HW stamped off Today: Enthalpy Cont., Hess’ Law

Hess’s Law and Standard Enthalpies of Formation Unit 10 Lesson 4

Chapter 16 Preview Objectives Thermochemistry Heat and Temperature

Section 11.4 Calculating Heat Changes

Hess’s Law Hess’s law allows you to determine the energy of chemical reaction without directly measuring it. The enthalpy change of a chemical process.

Rate Law (Honors) Mathematical expressions relating the rate of reaction to the concentration of reactants. Rate of a reaction can only be determined from.

Heat and the Enthalpy of Reaction

THERMOCHEMISTRY Thermodynamics

Chapter 5 Thermochemistry Part B

Either way, you get to the finish.

Hess’s Law Start Finish A State Function: Path independent.

1.2.5 Hess’s Law- the equation

__C3H8(g) + __O2(g) ⇌ __CO2(g) + __H2O(g)

Hess’s Law and Standard Enthalpies of Formation

Ch. 17: Reaction Energy and Reaction Kinetics

Thermodynamics.

1.2.5 Hess’s Law- the equation

Chapter 16 Preview Objectives Thermochemistry Heat and Temperature

Presentation transcript:

List of enthalpies for several kinds of reactions. Heats of Reaction List of enthalpies for several kinds of reactions.

How to read the ΔH Table N2 (g) + 3H2 (g)  2NH3 (g) - 91.8 ΔH (kJ) N2 (g) + 3H2 (g)  2NH3 (g) - 91.8 What is the enthalpy for the synthesis of 2 moles of ammonia gas? What is the ∆H for the decomposition of 2 moles of ammonia gas? What is the enthalpy for the decomposition of 1 mole of NH3(g)?

How to read the ΔH Table N2 (g) + 3H2 (g)  2NH3 (g) - 91.8 ΔH (kJ) What is the enthalpy for the synthesis of 2 moles of ammonia gas? -91.8kJ What is the ∆H for the decomposition of 2 moles of ammonia gas? +91.8kJ What is the enthalpy for the decomposition of 1 mole of NH3(g)? + 45.9 kJ

Practice Is the synthesis of aluminum oxide endo or exo? Is the decomposition of nitrogen dioxide endo or exo? How much energy is absorbed if 105.0grams of C2H6 is decomposed?

Practice You MUST use the heats of reaction chart in order to answer these! Is the synthesis of aluminum oxide endo or exo? EXO because -3351kJ Is the decomposition of nitrogen dioxide endo or exo? EXO b/c synthesis is +66.4kJ so the reverse must be the opposite sign. How much energy is absorbed if 105.0grams of C2H6 is decomposed? Convert mass to moles then use the chart. 3.5mol of C2H6 x +84.0kJ = 294kJ

Hess’s Law (of Constant Heat Summation) The energy change of overall reaction (ΔH) is the sum of the individual heats of formation (ΔH0f)

CuO(s) + H2(g) Cu(s) + H2O(g) Practice #1 CuO(s) + H2(g) Cu(s) + H2O(g) Calculate the ΔH given: ΔHof H2O(g) = -242.5 kJ/mol ΔHof CuO(s)= -155.0 kJ/mol Four steps 1. Switch the sign for reactants because they are being broken down NOT formed! 2. Multiply for moles (if necessary)

-87.5 kJ H2O(g) = -242.5 kJ CuO(s)= +155.0 kJ 3. The heat of formation for an element is 0, IGNORE THEM. 4. Add up your numbers H2O(g) = -242.5 kJ CuO(s)= +155.0 kJ -87.5 kJ

Problem #2 CH4 + 3Cl2  CHCl3 + 3HCl The standard heats of formation for CH4, CHCl3 and HCl are -74.8 kJ/mol, -132kJ/mol and -92.0kJ/mol respectively. Calculate the enthalpy for the following: CH4 + 3Cl2  CHCl3 + 3HCl

Problem #2 -333.2kJ CH4 + 3Cl2  CHCl3 + 3HCl The standard heats of formation for CH4, CHCl3 and HCl are -74.8 kJ/mol, -132kJ/mol and -92.0kJ/mol respectively. Calculate the enthalpy for the following: CH4 + 3Cl2  CHCl3 + 3HCl (-74.8) + 3(0) + (-132) + 3(-92.0) = -333.2kJ

Hess’s Law using Elementary steps Calculate ΔH for: C(s) + O2(g) → CO2(g) Given: 2C(s) + O2(g) → 1CO(g) ΔH= –221.0 kJ CO2(g) → CO(g) + ½O2(g) ΔH = +283.0 kJ

-393.5 kJ/mol Hess’s Law using Elementary steps Overall: C(s) + O2(g) → CO2(g) ΔH Divide ALL by 2 2C(s) + O2(g)  2CO(g) –221.0 kJ / 2 C(s) + 0.5 O2(g)  CO(g) 110.5 kJ Flip CO(g) + ½O2(g)  CO2(g) -283.0 kJ Add together and cancel the same substances on both sides. C(s) + O2(g) + CO(g)  CO(g) + CO2(g) -393.5 kJ/mol