Thermodynamics Thermo – Heat Dynamics – motion or flow.

Slides:

Advertisements

Similar presentations

RTQ UTQ ATQ Mr Bs reminder for questions. RTQ Read The Question You have to start by carefully reading the question. Not the question you think it is,

Advertisements

Properties of Matter. Physical Properties Chemical Properties.

Problem Solving Steps. Read the Question! What do you want to know? What do you know? Are there any handy formulas? Which Formula? Do the Math Make sure.

The Face on Mars. Hoagland – one of the proponents of the Face as well as a city on the moon, and hyperdimensional vortices on planets.

SQ3R Help with dealing with Bookwork - Reading a Chapter & Answering Questions.

Steps to hyperspace. 0 A Point – (0D) No dimension.

SpectraSpectraSpectraSpectra How do we know what elements are in stars???

Dying Stars Part 2 Black Holes. First you need a Supernova! Giant star Layers Balance – Gravity and Heat/Energy Fusing Iron Core Collapse – Ka-Blooey!!!

Thermodynamics.

The Laws of Thermodynamics

Thermodynamics Chapters

Chapter 9 Thermal Energy

Equilibria Among Three Thermodynamic Systems. Mechanical Equilibrium Consider the apparatus shown below. The internal volumes formed by the pistons and.

Thermal Energy & Thermodynamics

Thermal Physics.

Dr. Baljeet Kaur Lecturer Chemistry Government Polytechnic College for Girls Patiala.

The Zeroth and First Laws. Mechanical energy includes both kinetic and potential energy. Kinetic energy can be changed to potential energy and vice versa.

Heat Chapter 9 &10. Kinetic-molecular Theory Matter is made up of many tiny particles that are always in motion In a hot body the particles move faster.

Thermodynamics and Statistical Mechanics Spring 2006.

Laws of Thermodynamics: Too Hot, Too Cold, Just Right

Introduction to Physical Science Monday, Wednesday, Thursday Tom Burbine

Chapter 15 Thermodynamics. MFMcGrawChap15d-Thermo-Revised 5/5/102 Chapter 15: Thermodynamics The first law of thermodynamics Thermodynamic processes Thermodynamic.

Important Terms & Notes Conceptual Physics Mar. 12, 2014.

Energy & Its Impact on Global Society Jerome K. Williams, Ph.D. Saint Leo University Dept. Mathematics & Sciences.

Thermodynamics Chapter 10 ~Energy. Intro Most natural events involve a decrease in total energy and an increase in disorder. The energy that was “lost”

Todays Topics: 1. 1st Law of Thermodynamics 2. Gases and Work

Thermodynamics an Analogy & Its Constructs

Thermodynamics Notes Do Specific Heat Lab 12/12/12

A 50.0 g ball is dropped from an altitude of 2.0 km. Calculate: U i, K max, & W done through the fall.

Physics Unit 6: Thermodynamics

Laws of Thermodynamics

By: Yong Yu Wen (33) 303. What is it? is the subject of the relation of heat to forces acting between contiguous parts of bodies, and the relation of.

Laws of Thermodynamics C ontents: 1 st Law 2 nd Law 3 rd Law.

Thermodynamics The First Law of Thermodynamics Thermal Processes that Utilize an Ideal Gas The Second Law of Thermodynamics Heat Engines Carnot’s Principle.

Lecture Outline Chapter 12 College Physics, 7 th Edition Wilson / Buffa / Lou © 2010 Pearson Education, Inc.

The Zeroth Law of Thermodynamics

Z EROTH L AW OF T HERMODYNAMICS If two thermodynamic systems (bodies) are separately in thermal equilibrium with a third, they are also in thermal equilibrium.

 1. What does the law of conservation of energy state? 2. How does the motion of molecules relate to temperature? 3. Heat is always transferred from.

CHAPTER 15 Thermodynamics Thermodynamic Systems and Their Surroundings Thermodynamics is the branch of physics that is built upon the fundamental.

Thermodynamics Thermodynamics, n. pl. Oxford English Dictionary – The theory of the relations between heat and mechanical energy, and of the conversion.

First Law of Thermodynamics

Thermodynamics. Consider two blocks of Energy A and B with different temperatures Ta and Tb. Ta > Tb. Heat will flow from Block A to block B until they.

 The physical change of a substance from one state (solid, liquid or gas) to another.  Involves potential energy between particles.

Energy for Heat Transfer. 1 st Law of Thermodynamics Whenever heat flows into or out of a system, the gain or loss of thermal energy equals the amount.

Thermodynamics Thermodynamics is a branch of physics concerned with heat and temperature and their relation to energy and work.

Chapter 3.1 Laws of Thermodynamics. Systems  A system is a set of interconnected parts  An open system is one that exchanges both matter and energy.

Thermodynamic Processes

Heat and Temperature. Let’s Review - According to the kinetic theory of matter, all matter is made up of tiny particles – called atoms or molecules. -

T HE FOUR LAWS OF T HERMODYNAMICS Prepared by: VAGHASIYA JAYDIP RAMANIKBHAI ( )

Enthalpy of formation Using enthalpies of formation, calculate the standard change in enthalpy for the thermite reaction: This reaction occurs when a mixture.

Temperature - A measure of how hot or cold. Measured in Celsius, Fahrenheit, and Kelvin. THERMAL ENERGY AND MATTER.

Laws of Thermodynamics. Zeroth Law of Thermodynamics “If two thermodynamic systems are each in thermal equilibrium with a third, then they are in thermal.

Chapter 3 – Energy Transfer

Basic Concepts Of Engineering Thermodynamics

LAWS OF THERMODYNAMICS

Thermodynamics Chapter 15.

Heat versus Temperature

Unit 2 Heat and temperature.

Thermodynamics ~Energy.

Sajjad Ahmed Memon S.S./ Health Physicist NIMRA

Warm-Up 03SEP2015 When you eat food how does the energy transfer and what happens to the matter that is your food?

Heat and thermodynamics Lesson 6.3. Thermodynamics It is the study of conversions between thermal energy and other forms of energy.

First Law of Thermodynamics

Thermodynamic Processes

Enthalpy of formation 2Al(s) + Fe2O3(s)  Al2O3(s) + 2Fe(s)

Internal Energy Internal energy (also called thermal energy) is the energy an object or substance has due to the kinetic and potential energies associated.

3.1 Laws of Thermodynamics

Thermodynamics is the science that bind heat with energy and work.

Presentation transcript:

Thermodynamics Thermo – Heat Dynamics – motion or flow

There are Three Laws of Thermodynamics that people have figured out. They seem to be true everywhere, but sometimes you have to adjust your thinking to figure out the boundaries.

First Law Whenever heat flows into or out of a system, the gain or loss of thermal energy equals the amount of heat transferred In = Out (Energy is conserved)

3 other ways of saying the 1 st Law Energy can be neither created nor destroyed. It can only change forms. In any process in an isolated system, the total energy remains the same. For a thermodynamic cycle the net heat supplied to the system equals the net work done by the system.

Second Law Heat never spontaneously flows from a cold substance to a hot substance. Hot Cold (the only way you can make it go the other way is to add energy, which means its still true)

In other words When two isolated systems in separate but nearby regions of space, each in thermodynamic equilibrium in itself, but not in equilibrium with each other at first, are at some time allowed to interact, breaking the isolation that separates the two systems, and they exchange matter or energy, they will eventually reach a mutual thermodynamic equilibrium. The sum of the entropies of the initial, isolated systems is less than or equal to the entropy of the final exchanging systems. In the process of reaching a new thermodynamic equilibrium, entropy has increased, or at least has not decreased.

Third Law No system can reach Absolute Zero 0 K °C °F

C.P Snows Short Version 1 - You cannot win, you can only break even (that is, you cannot get something for nothing, because matter and energy are conserved). 2 - You cannot break even (you cannot return to the same energy state, because there is always an increase in disorder; entropy always increases). 3 - You cannot get out of the game (because absolute zero is unattainable).

Entropy Reduce the state of order of the initial systems, and therefore entropy is an expression of disorder or randomness

Maxwells Demon

Disclaimer Aloha I put together these power points for use in my science classes. You may use them in your classes. Some images are public domain, some are used under the fair-use provisions of the copyright law, some are mine. Copyright is retained by the owners! Ted Brattstrom