What’s the MATTER: Specific Heat of Matter. Matter, Specific Heat of Matter At the conclusion of our time together, you should be able to: 1. Define specific.

Slides:

Advertisements

Similar presentations

Thermochemistry the study of transfers of energy as heat that accompany chemical reactions and physical changes.

Advertisements

Section 7.3—Changes in State

Heating/Cooling Curve & Energy Calculations. Which of the following measures the average kinetic energy of a sample? 1.Mass 2.Volume 3.Specific heat 4.Temperature.

 Energy is transferred ◦ Exothermic – heat is released  Heat exits ◦ Endothermic – heat is required or absorbed by reaction  Measure energy in Joules.

Ch. 11 Thermochemistry.

What is the relationship between heat and temperature?

Unit 2 – Matter and Energy Mrs. Callender. Lesson Essential Question: What is Thermochemistry?

Unit 09 Thermochemistry.

Chapter 6: Thermal Energy. LEARNING GOALS  Define temperature.  Explain how thermal energy depends on temperature.  Explain how thermal energy and.

Thermodynamics.

What’s the MATTER: Specific Heat of Matter

Reaction Energy and Reaction Kinetics Thermochemistry.

Thermochemistry The study of the changes in heat energy that accompany chemical reactions and physical changes.

Energy in Chemical & Physical Changes

Chemistry Calculating Heat.

Thermal Energy A. Temperature & Heat 1. Temperature is related to the average kinetic energy of the particles in a substance.

Thermochemistry and Energy Water freezing and boiling at the same time, really?!

Thermodynamics Ch 10 Energy Sections Thermodynamics The 1st Law of Thermodynamics The Law of Conservation of Energy is also known as The 1st.

ENERGY CALCULATION PRACTICE UNIT 3. HOW MUCH ENERGY IS REQUIRED TO HEAT 200 GRAMS OF WATER FROM 25˚C TO 125˚C? HOW MUCH ENERGY IS RELEASED WHEN COOLING.

Thermochemistry: The study of heat changes that occur during chemical reactions and physical changes of state.

Specific Heat Page 7-9 in Unit 5 Packet. Specific Heat of Matter At the conclusion of our time together, you should be able to: 1. Define specific heat.

THERMO- CHEMISTRY Thermochemistry Study of the heat changes that occur during a chemical reaction.

Conservation of Energy

Section 7.3—Changes in State What’s happening when a frozen ice pack melts?

CHAPTER 2  Heat  Temperature and Conversions  Specific Heat.

Energy (nrg) How energy changes the physical state of matter & energy involved in chemical 

Heat and Temperature. The difference Heat – the energy that flows from hot to cold. Measured in Joules (J) or calories (cal). Temperature – measure of.

Heat and States of Matter

 Energy – the ability to do work or produce heat ◦ Kinetic energy – energy of motion ◦ Potential energy – stored energy  Chemical potential energy –

Chapter 16 Reaction Energy Thermochemistry  I can define temperature and state the units in which it is measured  I can define heat and state its units.

Thermochemical Calculations

Thermodynamics Cartoon courtesy of NearingZero.net.

Matter & Energy. States of Matter  Solid- Definite volume and shape Particles are tightly packed Slight expansion when heated Incompressible.

What’s the MATTER: Specific Heat of Matter. Matter, Specific Heat of Matter At the conclusion of our time together, you should be able to: 1. Define specific.

Thermochemistry (The study of energy transfers) Mr. Forte Atascadero High School.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Thermochemistry Virtually every chemical reaction is accompanied.

What’s the MATTER: Specific Heat of Matter. Be Afraid… Be Very Afraid…

Unit 13 Thermochemistry. Energy u The ability to do work or cause a change u Often measured in joules (J) u Law of Conservation of Energy – energy is.

Kinetic Energy Energy an object possesses when in motion. Law of Conservation of Energy – in any physical or chemical change, energy can change form,

CHAPTER 10 Reaction Energy Visual Concepts Heat Chapter 10.

Energy exits in two basic forms, ____________________ and ____________________ energy.

Section 10.2 The Flow of Energy 1.To convert between different energy units. 2.To understand the concept of heat capacity. 3.To solve problems using heat.

 Different substances require different amounts of heat to change their temperature.  Objects that require more energy have a high heat capacity like.

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)

REACTION ENERGY CHAPTER 16 PAGE 500. A. THERMOCHEMISTRY 1. Introduction a. Every chemical reaction causes a change in energy b. Endothermic or exothermic.

Types of energy POTENTIAL ENERGY : STORED ENERGY. The energy inside the substance. KINETIC ENERGY : Associated with motion. Average KE = TEMPERATURE.

Ch.1: Matter and Change Introduction to Thermochemistry.

Thermochemistry: Energy and Heat The Nature of Energy u Energy is the ability to do work or produce heat. u It exists in two basic forms, potential energy.

Heat capacity and Calorimetry

Topic: Matter & Energy Aim: How can the amount of energy gained or lost by a system be calculated? Do Now: What Celsius temperature is the equivalent of.

Thermochemistry The study of the changes in heat energy that accompany chemical reactions and physical changes.

Heating/Cooling Curve & Energy Calculations

Thermochemistry Study of transfers of energy as heat that accompany chemical rxns and physical changes Part 1.

Reaction Energy Exothermic reaction of Thermite.

Section 7.3—Changes in State

Energy & Calorimetry THERMOCHEMISTRY.

Quantitative Energy Problems

Heating and Cooling Curves

Thermochemistry The study of the changes in heat energy that accompany chemical reactions and physical changes.

Chapter 16 Thermochemistry

Changes of State units: J/g Heat of Vaporization

Thermochemistry.

Thermochemistry.

Thermochemistry.

Thermochemistry Chapter 16.

Ch.17: Reaction Energy and Reaction Kinetics

Thermochemistry The study of the changes in heat energy that accompany chemical reactions and physical changes.

Chapter 16 Preview Objectives Thermochemistry Heat and Temperature

Presentation transcript:

What’s the MATTER: Specific Heat of Matter

Matter, Specific Heat of Matter At the conclusion of our time together, you should be able to: 1. Define specific heat 2. Use specific heat to determine energy changes

Thermochemistry  Some Definitions: Calorimeter – a device to measure the energy absorbed or released as heat in a chemical or physical change Temperature – measure of the average kinetic energy of the particles in a sample of matter Joule – the SI unit of heat

Thermochemistry  Some Definitions: Heat – energy transferred between samples of matter Specific Heat – the amount of energy required to raise the temperature of one gram of a substance by one Celsius degree or one Kelvin 1 Calorie/4.184 Joules – will do the above with water

Thermochemistry  Some Definitions: Enthalpy (Heat) of Fusion – amount of energy gained or lost by a system as heat during melting or freezing Enthalpy (Heat) of Vaporization – amount of energy gained or lost by a system as heat during boiling or condensation

Specific Heat Calculations:  q = c p x m x t: q = energy lost or gained c p = specific heat of the substance at a specific pressure m = mass of the sample t = change in temperature (final – initial)

Practice #1  q = c p x m x t: q = J c p = x m = g t = o C J = (x)( g)(152.0 o C) = J/g o C

Practice #2  q = c p x m x t: q = J c p = J/g o C m = g t = (x – o C) J = J / g o C ( g)(x – o C) = 30.81x – = 30.81x = 76.0 o C

Matter, Specific Heat of Matter Let’s see if you can : 1. Define specific heat 2. Use specific heat to determine energy changes

Define Specific Heat Specific Heat – the amount of energy required to raise the temperature of one gram of a substance by one Celsius degree or one Kelvin

Practice #3  q = c p x m x t: q = J c p = J/g o C m = x g t = o C J = (0.440 J/g o C )(x)(-1475 o C) J = -649 Jg = 0.29 g

Practice #4  q = c p x m x t: q = x J c p = cal/g o C (4.184 J/cal) m = g t = o C x = ( J/g o C )( g)(-51.5 o C) = x 10 3 J