Chapter 5 Energy and States of Matter. Changes of State. Melting and Freezing. Calculations Using Heat of Fusion

Similar documents
What are the states of Matter?

What kinds of energy do you see?

0 o K is called absolute zero. Water Freezes: 273 o K Water Boils: 373 o K

Thermochemistry. The study of energy changes that occur during chemical reactions and changes in state.

Liquids and Solids: The Molecular Kinetic Theory II. Unit 5

EDULABZ INTERNATIONAL. Heat ASSIGNMENT

solid IMF>liquid IMF>gas IMF Draw a diagram to represent the 3 common states of matter of a given substance: solid liquid gas

Energy and Energy Calculations Test Provide the correct answer as a word, phrase or sentence. (3 points each) 1) Define Matter.

Name: Class: Date: ID: A

Chapter 11. Thermochemistry: Heat & Chemical Change

Chapter 23 Changes of Phase. Conceptual Physics Chapter 23 1

Slide 1. Slide 2. Slide 3. Chapter 2 Matter and Energy. 2.1 Classification of Matter. Matter. Pure Substances

Name Chemistry / / Understanding Phase Changes

Solids (cont.) Describe the movement of particles in a solid and the forces between them.

q = m. C p. T q = heat (Joules) m = mass (g) C p = specific heat (J/g.o C) T = change in temp. ( o C) UNIT 11 - SOLIDS, LIQUIDS, & PHASE CHANGES

Duncan. Q = m. C p. T. Q = heat (Joules) m = mass (g) C p = specific heat capacity (J/g.o C) T = change in temp. ( o C)

Chemistry Heat Review. Heat: Temperature: Enthalpy: Calorimetry: Activation energy:

Chapter 4. Properties of Matter

Physics Mechanics

NAME DATE CLASS TEST DATE:

Unit 6: Energy. Aim: What is Energy? Energy: Energy is required to bring about changes in matter (atoms, ions, or molecules).

Page 1 SPH3U. Heat. What is Heat? Thermal Physics. Waterloo Collegiate Institute. Some Definitions. Still More Heat

Kinetic Theory of Matter

PHASE CHANGE. Freezing Sublimation

Thermal Energy. Practice Quiz Solutions

The Nature of Energy Energy is the ability to do work or produce Heat, q or Q, is ; flows due to temperature differences (always to )

ENTROPY

Chapter 16. Copyright 2010 Pearson Education, Inc.

Exercises Evaporation (page 451) 23.2 Condensation (pages )

Section 16.3 Phase Changes

We call the characteristic of a system that determines how much its temperature will change heat capacity.

Ch. 11 States of matter

Unit 1 Lesson 6 Changes of State. Copyright Houghton Mifflin Harcourt Publishing Company

Matter and Energy Review Packet

Chapter 12 Intermolecular Forces of Attraction

q = m x C x ΔT or, think of it as unit cancellation: = ( ) (

CP Chapter 17 Thermochemistry

Section 2: Changes of State (p. 68) 20 HOLT SCIENCE AND TECHNOLOGY

Ch. 17 Thermochemistry

CALORIEMETRY. Similar to the other forms of the energy, The S.I unit of heat is joule. joule is represented as J.

CHAPTER 17 Thermochemistry

Temperature and Its Measurement

Heating and Cooling Curves

Name... Class... Date... Specific heat capacity and specific latent heat

Phase Change Diagram. Rank Solids, liquids and gases from weakest attractive forces to strongest:

Matter and Energy. Chapter 3

Name: Regents Chemistry: Mr. Palermo. Notes: Unit 7 Heat.

Name Date Class THE FLOW OF ENERGY HEAT AND WORK

Name: Regents Chemistry: Mr. Palermo. Student Version. Notes: Unit 6A Heat

A). Yes. B). No. Q15 Is it possible for a solid metal ball to float in mercury?

Rate in Thermal Systems

STATES OF MATTER. Chapter 3

Per 5 Activity Solutions: Thermal Energy, the Microscopic Picture

Figure 1.1. Relation between Celsius and Fahrenheit scales. From Figure 1.1. (1.1)

Types of Energy Calorimetry q = mc T Thermochemical Equations Hess s Law Spontaneity, Entropy, Gibb s Free energy

Name... Class... Date...

Chapter 17 Thermochemistry

Chapter 5 Thermochemistry

The graph represents the uniform cooling of water at 1 atmosphere, starting with water as a gas above its boiling point.

Solid water floats on liquid water High surface tension Universal solvent High specific heat High heat of vaporization

Water Properties click here for 9/page to print

Recap. There are 3 different temperature scales: Celsius, Kelvin, and Fahrenheit

Topic 3: Thermal physics 3.1 Thermal concepts

Chapter 2 Energy and Matter

Properties of Matter

Chapter 2 Heat, Temperature and the First Law of Thermodynamics

Calorimetry. A calorimeter is a device in which this energy transfer takes place

Chapter States and Properties of Matter. The Periodic Table of the Elements Classification of Matter. 3.5 Energy and Nutrition

Solids, Liquids, and Gases. Chapter 14

Phase Changes. Measuring temperature during phase changes

HW #1: 1.42, 1.52, 1.54, 1.64, 1.66, 1.70, 1.76, 1.78, 1.80, 1.82, 1.84, 1.86, 1.92, 1.94, 1.98, 1.106, 1.110, 1.116

Thermodynamics Test Clio Invitational January 26, 2013

Chapters 16 Temperature and Heat

What Do You Think? Investigate GOALS. Part A: Freezing Water

2 Copyright Pearson Education, Inc., or its affiliates. All Rights Reserved.

Temp vs. Heat. Absolute Temperature Scales. Common Temperature Scales. Thermal Energy. Heat and Temperature are not the same!!

Thermal Physics. Temperature (Definition #1): a measure of the average random kinetic energy of all the particles of a system Units: o C, K

Homework - Lecture 11.

Chapters 17 &19 Temperature, Thermal Expansion and The Ideal Gas Law

Thermochemistry. Section The flow of energy

Chapter 14: Liquids and Solids

For more info visit

Be sure to attend lab THIS week. Bring the lab manual Must pass lab to pass this class Instructors will give percent lab grade to one another

Name Chemistry / / SOL Questions Chapter 9 For each of the following, fill in the correct answer on the BLUE side of the scantron.

Chapter 11 part 2. Properties of Liquids Viscosity Surface Tension Capillary Action. Phase Changes (energy of phase changes)

2. THE STATES OF MATTER

SPECIFIC HEAT OF WATER LAB 11-2

Liquids & Solids: Section 12.3

The Next Generation Science Standards (NGSS)

Heating Curve Worksheet If this curve is read from right to left, it is a Cooling Curve.

Let's look at how different properties affect vapor pressure. P =0 P =vapor pressure P =vapor pressure. first all liquid

Chemical Thermodynamics

Topic 5: Energetics. Heat & Calorimetry. Thursday, March 22, 2012

2. As gas P increases and/or T is lowered, intermolecular forces become significant, and deviations from ideal gas laws occur (van der Waal equation).

A).5 atm B) 1 atm C) 1.5 atm D) 2 atm E) it is impossible to tell

THE PHASES OF MATTER. Solid: holds its shape and does not flow. The molecules in a solid vibrate in place, but on average, don t move very far.

Name: Class: Date: Figure 3-1

THERMOCHEMISTRY. This section explains the relationship between energy and heat, and distinguishes between heat capacity and specific heat.

Lecture PowerPoints. Chapter 14 Physics: Principles with Applications, 6 th edition Giancoli

Temperature Energy and Heat

Transcription:

Chapter 5 Energy and States of Matter Changes of State 5.6 Melting and Freezing 5.7 Boiling and Condensation 1 2 Melting and Freezing A substance is melting while it changes from a solid to a liquid. A substance is freezing while it changes from a liquid to a solid. The freezing (melting) point of water is 0 C. Calculations Using Heat of Fusion The heat of fusion is the amount of heat released when 1 gram of liquid freezes at its freezing point. The heat of fusion is the amount of heat needed to melt 1 gram of a solid at its melting point. For water the heat of fusion (at 0 C) is 80. cal 1 g water 3 4 1

Calculation Using Heat of Fusion The heat involved in the freezing (or melting) a specific mass of water (or ice) is calculated using the heat of fusion. Heat = g water x 80. cal g water Problem: How much heat in calories is needed to melt 15.0 g of water? Learning Check A. How many calories are needed to melt 5.0 g of ice of 0 C? 1) 80. cal 2) 400 cal 3) 0 cal B. How many calories are released when 25 g of water at 0 C freezes? 1) 80. cal 2) 0 cal 3) 2000 cal 15.0 g water x 80. cal = 1200 cal 1 g water 5 6 Boiling A. How many calories are needed to melt 5.0 g of ice of 0 C? 2) 400 cal 5.0 g x 80. cal 1 g B. How many calories are released when 25 g of water at 0 C freezes? 3) 2000 cal 25 g x 80. cal 1 g Water evaporates when molecules on the surface gain enough energy to form a gas. At boiling, all the water molecules acquire enough energy to form a gas. 7 8 2

The heat of vaporization Heat of Vaporization Is the amount of heat needed to change 1 g of liquid to gas at the boiling point. Is the amount of heat released when 1 g of a gas changes to liquid at the boiling point. Learning Check How many kilocalories (kcal) are released when 50.0 g of steam in a volcano condenses at 100 C? 1) 27 kcal 2) 540 kcal 3) 27 000 kcal Boiling (Condensing) Point of Water = 100 C Heat of Vaporization (water) = 540 cal 1 g water 9 10 Chapter 5 Energy and States of Matter How many kilocalories (kcal) are released when 50.0 g of steam in a volcano condenses at 100 C? 1) 27 kcal 50.0 g steam x 540 cal x 1 kcal = 27 kcal 1 g steam 1000 cal 5.8 Heating and Cooling Curves 11 12 3

Heating Curve A heating curve illustrates the changes of state as a solid is heated. Sloped lines indicate an increase in temperature. Plateaus (flat lines) indicate a change of state. Learning Check A. A flat line on a heating curve represents 1) a temperature change 2) a constant temperature 3) a change of state B. A sloped line on a heating curve represents 1) a temperature change 2) a constant temperature 3) a change of state 13 14 Cooling Curve A. A flat line on a heating curve represents 2) a constant temperature 3) a change of state B. A sloped line on a heating curve represents 1) a temperature change A cooling curve illustrates the changes of state as a gas is cooled. Sloped lines indicate a decrease in temperature. This cooling curve for water begins at 140 C and ends at -30 C. 15 16 4

Learning Check Use the cooling curve for water to answer each. A. Water condenses at a temperature of 1) 0 C 2) 50 C 3) 100 C B. At a temperature of 0 C, water 1) freezes 2) melts 3) changes to a gas C. At 40 C, water is a 1) solid 2) liquid 3) gas D. When water freezes, heat is 1) removed 2) added Use the cooling curve for water to answer each. A. Water condenses at a temperature of 3) 100 C B. At a temperature of 0 C, water 1) freezes C. At 40 C, water is a 2) liquid D. When water freezes, heat is 1) removed 17 18 Combined Heat Calculations Combined Heat Calculations (continued) To reduce a fever, an infant is packed in 250 g of ice. If the ice at 0 C melts and warms to body temperature (37.0 C), how many calories are removed from the body? Step 1: Diagram the changes. 37 C ΔT = 37.0 C 0 C = 37.0 C 0 C S L Step 2: Calculate the heat to melt ice (fusion) 250 g ice x 80. cal = 20 000 cal 1 g ice Step 3: Calculate the heat to warm the water from 0 C to 37.0 C 250 g x 37.0 C x 1.00 cal = 9250 cal g C Total: Step 2 + Step 3 = 29 250 cal Final answer = 29 000 cal 19 20 5

Learning Check When a volcano erupts, 150 g of steam at 100 C is released. How many kilocalories are lost when the steam condenses and cools to 15 C? 1) 81 kcal 2) 13 kcal 3) 94 kcal 3) 94 kcal Condense: 150 g x 540 cal x 1 kcal = 81 kcal 1 g 1000 cal Cool: 150 g x 85 C x 1 cal x 1 kcal = 13 kcal g C 1000 cal Total: 81 kcal + 13 kcal = 94 kcal 21 22 6

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback