Chapter 11 Thermochemistry- Heat and Chemical Change 11.3 Heat and changes of state.

Slides:

Advertisements

Similar presentations

Heat in changes of state

Advertisements

Friday 2/28 1. If the H of a reaction = J, is the reaction endothermic or exothermic? 2. If this reaction took place in water, what would happen.

A-B = Solid ice, temperature is increasing. Particles gain kinetic energy, vibration of particles increases. Heating and cooling curve for water heated.

Chapter 5 “Thermochemistry”

Ch. 16: Energy and Chemical Change

 MOLAR HEAT: it is the enthalpy changes(ΔH) for 1 mole of substance to change a state.  Molar Heat of Fusion (ΔH fus ): the amount of heat absorbed.

Warm up u P 4 + N 2 O  P 4 O 6 + N 2 u Balance the equation. u What is the Limiting/Excess reactant for 12 mol P 4 and 14 mole N 2 O.

Calculations in Chapter 10. Molar Enthalpy of Fusion Used when melting or freezing = ___energy ____ mol of substance Can be arranged to find any of the.

Heat in Changes of State

Enthalpy EQ: How do you predict the sign of delta H?

CHAPTER 17 THERMOCHEMISTRY.

Calorimetry How to use math to describe the movement of heat energy Temperature Change Problems Temperature Change Problems Phase Change Problems Phase.

Energy Transformations Thermochemistry is the study of energy changes that occur during chemical reactions and changes in state. The energy stored in the.

Chapter 17 Thermochemistry 17.3 Heat in Changes of State

Chapter 17 Thermochemistry. Thermochemistry: Study of energy changes that occur during chemical reactions and changes in state Section 17.1: The flow.

Chapter 17 Thermochemistry

Temperature ( o C) Heat (J) Solid Liquid Gas Heat = mass x ΔT x C l Heat = mass x H Fusion Heat = mass x H Vaporization s ↔ l l ↔ g H Vaporization H Fusion.

$$$ Review $$$ Thermochemistry. Gives off heat (emits) exothermic.

Section 11.1 The Flow of Energy - Heat

Thermochemistry.

Unit 13: Thermochemistry Chapter 17 By: Jennie Borders.

Chapter 13 Solids and Liquids.

NOTES: 17.3 – Heat in Changes of State. RECALL… ● when a substance changes state (i.e. melts, freezes, vaporizes, condenses) it does not change temperature.

Heat in Changes of State

The Flow of Energy. Think about this question for 15 seconds… What does a thermometer measure? Discuss with your neighbor what your answer is Share what.

Chapter 11 - Thermochemistry Heat and Chemical Change

Heat & Changes of State. Changes of State Solid to liquid Solid to liquid Liquid to solid Liquid to solid Liquid to gas Liquid to gas Gas to liquid Gas.

1  H = H final - H initial If H final > H initial then  H is positive Process is ENDOTHERMIC If H final > H initial then  H is positive Process is ENDOTHERMIC.

Water phase changes constant Temperature remains __________

Molar Enthalpy of Vaporization

TO LIVE IS THE RAREST THING IN THE WORLD. MOST JUST EXIST. THAT IS ALL.

Thermochemistry. Energy Energy: ability to do work or produce heat. Kinetic energy: energy of motion Potential energy: due to composition or position.

Phase Changes and Thermochemistry

T HE U NIVERSITY O F Q UEENSLAND Foundation Year THERMOCHEMISTRY II.

PHASE CHANGE GRAPH ( ) Tro's Introductory Chemistry, Chapter 12 1.

Thermochemistry Energy in State Changes. Copyright © Pearson Education, Inc., or its affiliates. All Rights Reserved. Heats of Fusion and Solidification.

Changes of State Objectives:

CHANGES OF STATE & HEAT OF SOLUTION Chemistry. Changes in States.

Unit 13: Thermochemistry Chapter 17 By: Jennie Borders.

CHAPTER 17 THERMOCHEMISTRY. ENERGY Energy is the capacity to do work or to supply heat. Various forms of energy include potential, kinetic, and heat.

$$$ Quiz $$$ Thermochemistry. Gives off heat (emits) exothermic.

Enthalpy (ΔH). Calorimetry the measurement of heat flow in/out of a system performed in a calorimeter the heat released by the system is equal to the.

Ch. 11 Thermochemistry: Heat and Chemical Change

Heat in Changes of State. What happens when you place an ice cube on a table in a warm room? Molar Heat of Fusion (ΔH fus ): heat absorbed by one mole.

Phase Change Problems.

Chapter 17 Review “Thermochemistry”. Chapter 17 Review What would likely happen (how would it feel) if you were to touch the flask in which an endothermic.

Thermochemical Calculations

Thermodynamics Cartoon courtesy of NearingZero.net.

Heating curves and  H temperature added energy. Heating curves and  H temperature added energy solidliquidgas.

Slide 1 of 35 © Copyright Pearson Prentice Hall > Heat in Changes of State Heats of Vaporization and Condensation Enthalpy changes accompany changes in.

Slide 1 of 35 Chemistry © Copyright Pearson Prentice Hall Slide 2 of 35 Heat in Changes of State During a race, an athlete can burn a lot of calories.

Thermochemistry Chapter 17. Introduction Thermochemistry is the chemistry associated with heat. Heat (q) is a form of energy that flows. Heat flow is.

Chapter 17: Thermochemistry

Chapter 17: Thermochemistry 17.1 The Flow of Energy – Heat and Work.

Chapter 11 Thermo chemistry Heat and Chemical Change The Flow of Energy – Heat Measuring and Expressing Heat Changes Heat in Changes of State Calculating.

Thermochemistry Energy Transformations. Definitions Thermochemistry – The study of energy changes that occur during chemical reactions and changes in.

Measuring Heat. Calorimeter Measuring Heat A device for measuring amount of heat absorbed or released. Calorimeter.

11.3 Heat in Changes of State. Warm up Is it exo- or endothermic???? -negative ΔH -positive ΔH -Heat as a reactant -Heat as a product -Combustion of.

Measurement of Heat Energy. The amount of heat given off or absorbed in a reaction can be calculated by a) q=mc∆T(Table T) q= heat (in joules or calories)

1 OBJECTIVES: –Classify, by type, the heat changes that occur during melting, freezing, boiling, and condensing. –Calculate heat changes that occur during.

Heat and Change of State Thornburg When an ice cube melts, it absorbs heat from its surroundings. The liquid water holds a temperature of 0 ˚ C.

Thermochemical Calculations

Chapter 14: Liquids and Solids

Chapter 17 Thermochemistry 17.3 Heat in Changes of State

Heat In Changes of State of Matter

Thermochemical Calculations

Section 5 Water Chapter 10 Ice and Water.

Heat in Changes of State

Presentation transcript:

Chapter 11 Thermochemistry- Heat and Chemical Change 11.3 Heat and changes of state

Things you will learn Classify the changes that occur during melting/freezing and boiling/condensing Calculate heat changes during changes of state Lab-graph the temperature of water as it goes from a mixture of ice and water until it is boiling (with a constant source of heat)

A couple of terms Molar heat of fusion (∆H fus ) and molar heat of solidification (∆H solid ). We learned that the temperature at which some substance melts is the same as the temperature at which it freezes; it should be no surprise that the amount of heat absorbed or released is also the same. ∆H fus = -∆H solid

A couple more terms Molar heat of vaporization (∆H vap ) and molar heat of condensation (∆H cond ). We learned that the temperature at which some substance boils is the same as the temperature at which it condenses; it should be no surprise that the amount of heat absorbed or released is also the same. ∆H vap = -∆H cond

How much heat are we talking about? The melting of 1 mole of water ice requires 6.01 kJ of energy (1440 calories) The vaporization of 1 mole of water requires 40.7 kJ of energy (9690 calories) Remember that it only takes 1 calorie to raise the temperature of 1 g of water 1°C, but 540 calories to change 1 g of water at 100°C to 1 g of steam at 100°C!

Endothermic or exothermic? H 2 O (s) H 2 O (l) H 2 O (l) H 2 O (s) H 2 O (l) H 2 O (g) H 2 O (g) H 2 O (l)

Endothermic or exothermic? H 2 O (s) H 2 O (l) ∆H (fus) = 6.01 kJ/mol H 2 O (l) H 2 O (s) ∆H (solid) = kJ/mol H 2 O (l) H 2 O (g) ∆H (vap) = 40.7 kJ/mol H 2 O (g) H 2 O (l) ∆H (cond) = kJ/mol (- ∆H means exothermic) (+∆H means endothermic)

How much heat is absorbed when 24.8 g H 2 O (l) at 100°C is converted to steam at 100°C?

Known: – Mass of water = 24.8 g – ∆H water = 40.7 kJ/mol – Molar mass water = 18 g Unknown : – kJ absorbed

40.7 kJ mol H 2 O (l) How much heat is absorbed when 24.8 g H 2 O (l) at 100°C is converted to steam at 100°C? 24.8 g H 2 O (l) mol H 2 O (l) 18 g H 2 O (l) 56.1 kJ ∆H (vap) = 40.7 kJ/mol

Heats of solution Different substances can release heat or absorb heat when they are dissolved in a solvent (we used water) This is called molar heat of solution ∆H (soln) These heats are generally written as kJ/mol, and do not depend on the amount of water, but only on the amount of substance being dissolved

How much heat is released when 2.50 moles of NaOH is dissolved in water?

Known: – Moles of NaOH = 2.50 – ∆H (soln) NaOH = kJ/mol Unknown : – kJ released

How much heat is released when 2.50 moles of NaOH is dissolved in water? 2.50 mol NaOH kJ mol NaOH kJ

Our lab experiment We will heat a mixture of water and ice with a constant source of heat and plot the temperature of the water (y axis) over time (x axis). Since the source of energy will remain constant, the time we will plot along the x axis might be considered energy input to the system We will stop plotting temperature once the water boils. Why?

Homework (HW 14) Chapter 11.3 Questions Page 306 Due: April 15 (red) April 16 (gold)