Thermal Physics Thermal Concepts.

Slides:

Advertisements

Similar presentations

Thermal Physics Thermal Concepts. Temperature The absolute temperature scale (measured in Kelvin and with a minimum value of zero Kelvin) is used in physics.

Advertisements

ELASTIC PROPERTIES OF SOLIDS

I can calculate the molar mass of a compound Sometimes the molar mass is called the formula mass!

Topic 3: Thermal Physics 3.1 Thermal concepts This chapter is an introduction to thermal physics. It introduces the concepts of temperature, heat, internal.

Chapter 13: Temperature and Ideal Gas

3.1.1State that temperature determines the direction of thermal energy transfer between two objects State the relation between the Kelvin and Celsius.

Chapter 10 Thermal Physics. Temperature Thermodynamics – branch of physics studying thermal energy of systems Temperature ( T ), a scalar – measure of.

Matter Unit.  A unit created to describe atoms because the gram and kilogram are too large to use to define an atom.  1amu = 1.66 x g  g.

Chapter 5 Energy.

Kinetic Molecular Theory of Matter

Ch. 21 Temperature, Heat, and Expansion. Question to the class: Discuss with your neighbor, in what terms have we discussed energy so far? – What equations.

Chapter 7: Chemical Formulas and Chemical Compounds

The Mole and Avogadro’s Number

Topic 3: Thermal Physics. What is Temperature? Temperature TEMPERATURE determines the direction of flow of thermal energy between two bodies in thermal.

Heat Thermal Energy Thermal Energy Thermal Energy.

IB Physics Topic 3 – Introduction to Thermo physics Mr. Jean.

Thermal Energy Heat & Temperature. Definitions  Energy  Can do work  Kinetic Energy  Energy associated with the motion of objects, large or small.

Thermal Physics Introduction. From mechanics to thermal physics Many concepts in thermal physics are based on mechanical concepts. For example, temperature.

Thermodynamics. What is Temperature Temperature is a measure of the kinetic energy of matter. Collision between molecules causes energy transfer Motion.

Mole (symbolized mol) = 6.02 x particles (602,000,000,000,000,000,000,000) Avogadro’s Number (N A ) molar mass – mass (usually in grams) of one mole.

3.4Molar Volume Molar Volume The Molar Volume of Gases Multi-Step Conversions Involving the Volume of a Substance Molar Volume and Density.

10.1 Measuring Matter Measuring Matter

Thermal Properties of Matter. I.Temperature, Heat, Internal Energy and the 0 th Law of Thermodynamics A.Temperature -measure of hot and cold -T is directly.

Heat and States of Matter

HEAT AND THERMAL ENERGY Kinetic Theory of Gases Thermal Expansion Gas Laws.

Physics II Thermology; Electromagnetism; Quantum physics.

Thermal Energy & Energy Transfer. Kinetic-Molecular Theory in a hot body, the particles move faster, and thus have a higher energy than particles in a.

Topic 3 Thermal physics. What is Temperature? Temperature TEMPERATURE determines the direction of flow of thermal energy between two bodies in thermal.

Thermal Physics Chapter 10. Thermodynamics Concerned with the concepts of energy transfers between a system and its environment and the resulting temperature.

Ch. 9 – Moles Law of definite proportions – for a pure substance, each element is always present in the same proportion by mass. Also, for a pure substance,

Stoichiometry is the study of quantitative (i. e

Heat and Temperature Objectives

Thermal Physics Heat Physics.

Temperature and Ideal Gas

Molar Mass and Dimensional Analysis

The Mole and Avogadro’s Number

Internal Energy • The internal energy of an object or physical system is the sum of the kinetic and potential energies of all the constituent atoms or.

Temperature, Heat, and Expansion

Heat versus Temperature

Chapter 10.1 The Mole: A Measurement of Matter

Lesson 3. 2 : Charles’ Law, pressure law and absolute zero

Heat and Temperature presented by Dr. Geller 10 September 2015

Avogadro’s number, the mole, molarity, molar mass

Chap-19: The Kinetic Theory of Gases

Thermal Physics - Thinking map

Using the Avagadro constant in calculations.

CHEM 3310 Thermodynamics.

Temperature A convenient operational definition of temperature is that it is a measure of the average translational kinetic energy associated with the.

Internal Energy • The internal energy of an object or physical system is the sum of the kinetic and potential energies of all the constituent atoms or.

Heat What is heat?.

10.1 What is a Mole? A mole of any substance contains Avogadro’s number of representative particles, or 6.02  1023 representative particles. The term.

Kinetic Molecular Theory

The Mole Avogadro’s Number.

Chemical Stoichiometry: The Mole Concept

The Mole Concept.

Lecture 10 Gases & Kinetic Theory.

12 grams of 12C has  1023 atoms 1 u =  kg.

Thermal Energy: Temperature and Heat

Temperature & Heat Chapter 6.1.

Thermal Concepts Heat & Thermodynamics.

10.1 The Mole & Molar Mass You could measure the amount of sand in a sand sculpture by counting each grain of sand, but it would be much easier to weigh.

Temperature Main Concept:

Temperature and Ideal Gas

Presentation transcript:

Thermal Physics Thermal Concepts

Thermal Concepts Temperature The absolute temperature scale (measured in Kelvin and with a minimum value of zero Kelvin) is used in physics calculations. (Where a change of one Kelvin equals a change of one degree Celsius) (i.e. The KE of the particles is directly proportional to the temperature) Kelvin Temperature = Celsius Temperature + 273 The absolute (Kelvin) temperature of a body is a measure of the average amount of kinetic energy that each of its molecules have.

Thermal Equilibrium When two bodies are at the same temperature as each other, they are in thermal equilibrium. This leads to the ‘Zeroth law of thermodynamics’: If two bodies A and B are separately in thermal equilibrium with body C, they are also in thermal equilibrium with each other and thus have the same temperature. Link – Thermal equilibrium Link – Heating a solid

Heat and Internal Energy We know that work can be done on a body, causing energy to be transferred to it mechanically (by a force moving through a distance). The only other way that energy can be transferred is by heat transfer: Note: It is common to mistakenly say that a body ‘contains heat energy’. This is wrong. In this sense we need to refer to internal energy: ‘Heat’ is the energy that will flow between two bodies that are not in thermal equilibrium and that thus have different temperatures.

molecules In any body, the internal energy of the body is equal to the sum of the kinetic energy and potential energy of all the particles. Note: While the potential energy of the particles results from their position and the forces between them, the kinetic energy of the particles is not only from their vibration. They may also have KE because they are spinning, moving from place to place etc. The many different ways in which a particle has energy are sometimes known as ‘degrees of freedom’.

Temperature and Internal Energy - Link

Moles and The Avogadro Number The number of molecules in a substance is measured in ‘moles’. Just like ‘a dozen’ means twelve of something, ‘one mole’ means 6.02 x 1023 molecules of something. One mole of a substance contains the same number of molecules as in 12 grams of Carbon-12. The Avogadro number (NA) is equal to the number of molecules in 12 grams of Carbon-12 (NA= 6.02 x 1023) The molar mass (M) is the mass in grams of one mole of a particular substance. Note: the mass number of an element is equal to the molar mass for atoms of an element. E.g. One mole of Nitrogen atoms will have mass 14g.

E. g. 1 The mass number of Helium is 4 E.g.1 The mass number of Helium is 4. How many atoms are in 4kg of Helium? Mass no. is 4 so molar mass is 4g. 4000 g / 4g = 1000 moles 1000 x NA = (1 x 103) x (6.02 x 1023) = 6.02 x 1026 atoms E.g.2 The molar mass of iron atoms is 56 g mol-1 and its density is 7.9 g cm-3. a. Find the mass of one atom of Iron. b. Calculate the number of iron atoms in one cubic metre of iron.

E.g. 2 The molar mass of iron atoms is 56 g mol-1 and its density is 7.9 g cm-3. a. Find the mass of one atom of Iron. b. Calculate the number of iron atoms in one cubic metre of iron. a. If one mole of atoms has mass 56g then one atom will have mass = 56 ∕ NA = 56 ∕ (6.02 x 1023) = 9.3 x 10-23g b. One cm3 has mass = 7.9 g So one m3 has mass = 7.9 x (100x100x100) g = 7.9 x 106 g So no. of iron atoms per m3 = 7.9 x 106 / 9.3 x 10-23 = 8.5 x 1028 atoms

Further calculations with moles The number of moles of a substance (n) can be determined form the total mass (m) divided by the molar mass (mass per mole, M), usually both measured in grams: Similarly if you knew the total number of molecules (N), you could find the number of moles (n) from… n = m M n = N NA

E.g. Calculate the number of moles of oxygen atoms in 40g of oxygen. N = m / M = 40 / 16 = 2.5 moles b. Calculate the number of moles of oxygen molecules (O2) in 40g of oxygen. N = m / M = 40 / 32 = 1.25 moles A sample of fluorine gas contains 20 x 1023 atoms of fluorine. Calculate the number of moles present. N = N / NA = 20 x 1023 / 6.02 x 1023 = 3.3 moles

Subtitle Text

Subtitle Text

Subtitle Text

Subtitle Text

Subtitle Text