Presentation is loading. Please wait.

Presentation is loading. Please wait.

Updated August 2006 Created by C. Ippolito August 2006 Energy Objectives: 1.identify various forms of energy 2.describe energy changes during a chemical.

Published byPeregrine McCarthy Modified over 9 years ago

Similar presentations

Presentation on theme: "Updated August 2006 Created by C. Ippolito August 2006 Energy Objectives: 1.identify various forms of energy 2.describe energy changes during a chemical."— Presentation transcript:

1

2 Updated August 2006 Created by C. Ippolito August 2006 Energy Objectives: 1.identify various forms of energy 2.describe energy changes during a chemical reaction 3.distinguish between heat energy and temperature 4.solve calorimetry problems 5.describe interactions between electrostatic charges

3 Created by C. Ippolito August 2006 Updated August 2006 Concept of Energy EnergyEnergy –ability to do work –can be changed into work under proper conditions –can be converted from one form into another –can be transmitted from one particle to another WorkWork –done when an object, in response to a force (push or pull), moves some distance –work = force x distance

4 Created by C. Ippolito August 2006 Updated August 2006 Mechanical Energy energy possessed by macroscopic (large) particles –Potential Energy –Potential Energy (E P ) depends on the position of the object in respect to other objects stored energy –Kinetic Energy –Kinetic Energy (E K ) depends upon the motion of an object in respect to other objects “working” energy

5 Created by C. Ippolito August 2006 Updated August 2006 Nonmechanical Energy energy associated with submicroscopic (small) particles –chemical energy –electrical energy –electromagnetic energy a.k.a. radiant energy –sound energy –magnetic energy –heat energy joule (J) is the SI unit that measures energy –named to honor James Joule, British scientist to study all forms of energyJames Joule

6 Created by C. Ippolito August 2006 Updated August 2006 Matter and Energy Law of the Conservation of MatterLaw of the Conservation of Matter –Matter is always conserved. This means the amount of matter is constant, it is neither created nor destroyed. It can only change form. Law of the Conservation of EnergyLaw of the Conservation of Energy –Energy is always conserved. The amount of energy in the universe is also constant, it is neither created nor destroyed. It too can only change form. Albert Einstein –Matter can be changed into energy and energy can be changed into matter with his now famous equation E = mc 2 –Law of the Conservation of Mass- Energy Mass-Energy is always conserved. The amount of Mass-Energy in the universe is also constant, it is neither created nor destroyed. It too can only change form.

7 Created by C. Ippolito August 2006 Updated August 2006 Energy and Chemical Change All chemical changes are accompanied by a change in energy –Endothermic Reaction Heat energy is absorbed Products have more energy than reactants Surroundings become colder –Exothermic Reaction Heat energy is released Products have less energy than reactants Surroundings become warmer Activation EnergyActivation Energy –Minimum amount of energy needed to start any chemical reaction

8 Created by C. Ippolito August 2006 Updated August 2006 Heat Energy and Temperature Temperature based on “hotness” and “coldness” –Celsius Scale Anders Celsius 0 o C water freezes100 o C water boils –Kelvin scale William Kelvin Based on theoretically lowest temperature of absolute zero where all molecular motion stops

9 Created by C. Ippolito August 2006 Updated August 2006 Temperature Conversions To convert Celsius to Kelvin –Add 273 to Celsius temperature 50 o C = ? K 50 o C + 273 = 323 K To convert Kelvin to Celsius –Subtract 273 from Kelvin temperature 30 K = ? o C 30 K – 273 = -243 o C

10 Created by C. Ippolito August 2006 Updated August 2006 Heat Measurement Calorimeter –Apparatus used to measure heat by rise or fall of temperature of water Specific Heat Capacity (C P ) –amount of joules needed to raise 1g of a substance 1 o C –measured as –listed in “Handbook of Chemistry and Physics”“Handbook of Chemistry and Physics” C P water = 4.18 J/g  o C C P aluminum = 0.903 J/g  o C

11 Created by C. Ippolito August 2006 Updated August 2006 Heat Calculations Equation: –Heat transferred = m   T  C P water M = mass of water  T = change in water temperature C Pwater = 4.18 J/g  o C How much energy is needed to raise 40 g of water from 20.0 o C to 36 o C? Known: C Pwater = 4.18 J/g  o C T initial = 20 o C T final = 36 o C m = 40 g Unknown: Heat transferred

12 Created by C. Ippolito August 2006 Updated August 2006 Heat Calculations (con’t) How much heat energy is lost when a solid ingot of aluminum with a mass of 4 110 g cools from 660 o C to 25.0 o C? Known: C Paluminum = 0.903 J/g  o C T initial = 660 o C T final = 25.0 o C m = 4 110 g Unknown: Heat transferred

Download ppt "Updated August 2006 Created by C. Ippolito August 2006 Energy Objectives: 1.identify various forms of energy 2.describe energy changes during a chemical."

Similar presentations

A First Look at Thermodynamics…

A First Look at Thermodynamics…
Endothermic Reactions (need heat) (Absorb heat energy from their surroundings) Solid + heat  Liquid (Fusion/Melting) Liquid + heat  Gas (Boiling/Evaporation/Vaporization)

Endothermic Reactions (need heat) (Absorb heat energy from their surroundings) Solid + heat  Liquid (Fusion/Melting) Liquid + heat  Gas (Boiling/Evaporation/Vaporization)
Thermochemistry “The Quick and Dirty”.  Energy changes accompany every chemical and physical change.  In chemistry heat energy is the form of energy.

Thermochemistry “The Quick and Dirty”.  Energy changes accompany every chemical and physical change.  In chemistry heat energy is the form of energy.
Aim: What is thermochemistry?. Law of Conservation of Energy In any chemical or physical process, energy is neither created nor destroyed. There are different.

Aim: What is thermochemistry?. Law of Conservation of Energy In any chemical or physical process, energy is neither created nor destroyed. There are different.
Thermochemistry The Basics of Heat Transfer. The Flow of Energy Thermochemistry - concerned with heat changes that occur during chemical reactions.

Thermochemistry The Basics of Heat Transfer. The Flow of Energy Thermochemistry - concerned with heat changes that occur during chemical reactions.
Ch. 11 Thermochemistry.

Ch. 11 Thermochemistry.
THERMODYNAMICS Courtesy of lab-initio.com. Definitions #1 Energy: The capacity to do work or produce heat Potential Energy: Energy due to position or.

THERMODYNAMICS Courtesy of lab-initio.com. Definitions #1 Energy: The capacity to do work or produce heat Potential Energy: Energy due to position or.
Thermochemistry the study of the transfer of energy between reacting chemicals and their surroundings.

Thermochemistry the study of the transfer of energy between reacting chemicals and their surroundings.
TOPIC: ENERGY Do Now:. All physical & chemical changes are accompanied by change in energy The chemistry of energy changes is known as Thermochemistry!

TOPIC: ENERGY Do Now:. All physical & chemical changes are accompanied by change in energy The chemistry of energy changes is known as Thermochemistry!
Unit 09 Thermochemistry.

Unit 09 Thermochemistry.
Energy Kinetic energy = energy of motion. Energy Potential energy = stored energy 1. energy of position due to gravity.

Energy Kinetic energy = energy of motion. Energy Potential energy = stored energy 1. energy of position due to gravity.
Energy How does matter interact with energy?. Definitions Energy is the ability to do work Work means that a mass must be moved by a force against it.

Energy How does matter interact with energy?. Definitions Energy is the ability to do work Work means that a mass must be moved by a force against it.
Energy Chapter 2 Section 1.

Energy Chapter 2 Section 1.
Energy chapter 5 1.Identify various forms of energy 2.Describe changes in energy that take place during a chemical reaction. 3.Distinguish between heat.

Energy chapter 5 1.Identify various forms of energy 2.Describe changes in energy that take place during a chemical reaction. 3.Distinguish between heat.
Energy Chapter 16 Chapter 16. Energy: Ability to do Work Potential Energy (PE) = Energy of position aka STORED energy aka STORED energy Kinetic Energy.

Energy Chapter 16 Chapter 16. Energy: Ability to do Work Potential Energy (PE) = Energy of position aka STORED energy aka STORED energy Kinetic Energy.
Energy in Chemical & Physical Changes

Energy in Chemical & Physical Changes
Energy. Energy – the ability to do work Energy – the ability to do work Kinetic – energy of motion, anything that moves has kinetic energy. Kinetic –

Energy. Energy – the ability to do work Energy – the ability to do work Kinetic – energy of motion, anything that moves has kinetic energy. Kinetic –
Thermochemistry and Energy Water freezing and boiling at the same time, really?!

Thermochemistry and Energy Water freezing and boiling at the same time, really?!
Section 15-1 The Nature of Energy Energy is the ability to do work or produce heat.Energy weightless, odorless, tasteless Two forms of energy exist, potential.

Section 15-1 The Nature of Energy Energy is the ability to do work or produce heat.Energy weightless, odorless, tasteless Two forms of energy exist, potential.
Bellringer Work in small groups to brainstorm ideas relating to energy. List different types of energy, list why energy is important, and when energy is.

Bellringer Work in small groups to brainstorm ideas relating to energy. List different types of energy, list why energy is important, and when energy is.

Similar presentations

Ads by Google