Presentation is loading. Please wait.

Presentation is loading. Please wait.

"Experiment is the interpreter of nature. Experiments never deceive

Published byJoella Parker Modified over 6 years ago

Similar presentations

Presentation on theme: ""Experiment is the interpreter of nature. Experiments never deceive"— Presentation transcript:

1 "Experiment is the interpreter of nature. Experiments never deceive
"Experiment is the interpreter of nature. Experiments never deceive. It is our judgment which sometimes deceives itself because it expects results which experiment refuses." - Leonardo da Vinci ( )

2 Large number of particles ~
Thermodynamics Large number of particles ~ NA =  1023 = mole (the quantity of matter that contains as many identical objects [e.g. atoms, molecules, formula units, ions] as the number of atoms in exactly 12 g of 12C) Fluctuations are small and can often be ignored, i.e., the thermo-dynamic limit NA =  1023 = mole (the quantity of matter that contains as many identical objects (e.g. atoms, molecules, formula units, ions) as the number of atoms in exactly 12 g of 12C)

3

4 Thermodynamic limit

5 Pressure, Volume, Temperature
P, V, T Something to do with heat L3 F/A

6 What is heat ? Heat is energy in transit ! Surroundings System Heat
Universe = (system + surroundings) Heat is measured in Joules

7 What is temperature? Temperature is what you measure with a thermometer Temperature is the thing that’s the same for two objects, after they’ve been in contact long enough. Long enough so that the two objects are in thermal equilibrium. Time required to reach thermal equilibrium is the relaxation time. Temperature is usually measured in K, C or F and cannot be expressed in mechanical units (mass, length and time).

8 Temperature is a measure of the tendency of an object to spontaneously give up/absorb energy to/from its surroundings. Diathermal wall is a system boundary that freely allows heat to be exchanged, i.e. very short relaxation time for systems separated by a diathermal wall. Adiabatic wall is a system boundary that does not allow heat to be exchanged, i.e. very long relaxation time for systems separated by a adiabaric wall. T1- T2 T1- T2 Adiabatic wall time time VG-8

9 pV = NkB T p  1/V V  T p  T Ideal gas equation of state
Boyle’s law p  1/V Robert Boyle (1627 – 1691) Charles’ law pV = NkB T V  T Jacques Charles (1746 – 1823) kB = 1.38  J/K Gay-Lussac’ law p  T Joseph Louis Gay-Lussac ( ) VG - 9

10 How much “energy in transit” needed to raise temperature of an object by dT ?
Heat capacity (units JK -1) Specific heat capacity (c) is the heat capacity per unit mass.

11 Specific heat of a solid
Copper

12 Thermometer needs to have a much lower heat capacity than the sample
Measurement of heat capacity by relaxation calorimetry Thermometer needs to have a much lower heat capacity than the sample T t T0 + T T0 Sample Heater Thermometer T0 T0 + T

Download ppt ""Experiment is the interpreter of nature. Experiments never deceive"

Similar presentations

The Kinetic Theory of Gases

The Kinetic Theory of Gases
Zeroth Law of Thermodynamics

Zeroth Law of Thermodynamics
First law of thermodynamics

First law of thermodynamics
Thermal Physics Chapter 10. Zeroth Law of Thermodynamics If objects A and B are in thermal equilibrium with a third object, C, then A and B are in thermal.

Thermal Physics Chapter 10. Zeroth Law of Thermodynamics If objects A and B are in thermal equilibrium with a third object, C, then A and B are in thermal.
4.3.4 Ideal Gases.

4.3.4 Ideal Gases.
Introduction to Thermodynamics Gas Laws. Thermal Expansion in solids Podcast: KQED Quest Lab: “Bridge Thermometer” from 5/4/2010 Thermal Expansion Eq:

Introduction to Thermodynamics Gas Laws. Thermal Expansion in solids Podcast: KQED Quest Lab: “Bridge Thermometer” from 5/4/2010 Thermal Expansion Eq:
Thermodynamics.

Thermodynamics.
Too many particles… can’t keep track! Use pressure (p) and volume (V) instead. Temperature (T) measures the tendency of an object to spontaneously give.

Too many particles… can’t keep track! Use pressure (p) and volume (V) instead. Temperature (T) measures the tendency of an object to spontaneously give.
Constant-Volume Gas Thermometer

Constant-Volume Gas Thermometer
1 Thermal Physics Chapter 10. 2 Thermodynamics Concerned with the concepts of energy transfers between a system and its environment and the resulting.

1 Thermal Physics Chapter Thermodynamics Concerned with the concepts of energy transfers between a system and its environment and the resulting.
Thermal Physics Thermal Physics is the study of temperature and heat and how they effect matter. Heat leads to change in internal energy which shows as.

Thermal Physics Thermal Physics is the study of temperature and heat and how they effect matter. Heat leads to change in internal energy which shows as.
Chapter 4 Heat and the first law of thermodynamics

Chapter 4 Heat and the first law of thermodynamics
Thermal contact Two systems are in thermal (diathermic) contact, if they can exchange energy without performing macroscopic work. This form of energy.

Thermal contact Two systems are in thermal (diathermic) contact, if they can exchange energy without performing macroscopic work. This form of energy.
Chapter-18 Temperature, Heat and the First Law of Thermodynamics.

Chapter-18 Temperature, Heat and the First Law of Thermodynamics.
Warm-up  What are the Laws of Thermodynamics?  What is heat?

Warm-up  What are the Laws of Thermodynamics?  What is heat?
Thermal Energy Heat & Temperature. Definitions  Energy  Can do work  Kinetic Energy  Energy associated with the motion of objects, large or small.

Thermal Energy Heat & Temperature. Definitions  Energy  Can do work  Kinetic Energy  Energy associated with the motion of objects, large or small.
AMALIA SHOLEHAH JURUSAN TEKNIK METALURGI FT – UNTIRTA THERMODYNAMICS.

AMALIA SHOLEHAH JURUSAN TEKNIK METALURGI FT – UNTIRTA THERMODYNAMICS.
Thermal Physics. TEMPERATURE measures the tendency for energy to leave an object spontaneously a measure of the average kinetic energy of the molecules.

Thermal Physics. TEMPERATURE measures the tendency for energy to leave an object spontaneously a measure of the average kinetic energy of the molecules.
Chapter 10 Thermal Physics. Thermal physics is the study of Temperature Heat How these affect matter.

Chapter 10 Thermal Physics. Thermal physics is the study of Temperature Heat How these affect matter.
A theory is the more impressive the greater the simplicity of its premises, the more different kinds of things it relates, and the more extended its area.

A theory is the more impressive the greater the simplicity of its premises, the more different kinds of things it relates, and the more extended its area.

Similar presentations

Ads by Google