Thermodynamics. Thermo : heat dynamics : motion Thermodynamics is the study of motion of heat. Time and Causality Engines Properties of matter

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Thermodynamics Thermo : heat dynamics : motion Thermodynamics is the study of motion of heat. Time and Causality Engines Properties of matter Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 1 / 18

The only subject it makes sense to learn Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 2 / 18

Thermodynamics allows you to learn Only thermodynamics breaks time-reversal symmetry. (strictly CPT(i) ) Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 3 / 18

How physics came to rule the world After DIY, work was achieved through military/politics With help from physics. Then the biologists got going. Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 4 / 18

How physics came to rule the world Chemists too, Thermodynamics drove the modern world And physics is the future. Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 5 / 18

A short list of things you already know Phases of matter: solids, liquids and gasses Ideal gases. Kinetic theory; Maxwell-Boltzmann velocity distributions; degrees of freedom and equipartition theorem. Non-ideal gases. Lennard-Jones type interaction; van der Waals; phase coexistence. Liquid phase. vapour pressure; surface tension. Properties of materials: compressibility 1 dv dq V dp, heat capacity dt, thermal expansivity 1 dv V dt, latent heat Elasticity and deformations. Young s modulus; sound waves; bulk modulus; Flow and transport phenomena. Bernoulli s equation; viscosity; Reynolds number; thermal and electrical conductivity. Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 6 / 18

Einstein s Opinion Thermodynamics is the only physical theory of universal content which I am convinced, within the areas of applicability of its basic concepts, will never be overthrown. A. Einstein 1949 Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 7 / 18

How Planck discovered his law of black-body radiation I had no alternative but to tackle the problem again... from the side of thermodynamics. In fact, my previous studies of the Second Law of Thermodynamics came to stand me in good stead now, for at the very outset I hit upon the idea of correlating not the temperature of the oscillator but its entropy with the energy... While a host of outstanding physicists worked on the problem of the spectral energy distribution both from the experimental and theoretical aspect, every one of them directed his efforts solely towards exhibiting the dependence of the intensity of radiation on the temperature. On the other hand, I suspected that the fundamental connection lies in the dependence of entropy with the energy... Nobody paid any attention to the method which I adopted and I could work out by calculations completely at my leisure, with absolute thoroughness, without fear of interference or competition. Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 8 / 18

How Hawking discovered black holes weren t black Using thermodynamics, Hawking showed that black holes with mass, charge, angular momentum must also have entropy and temperature. They therefore give off black-body radiation. Field theory calculations are consistent with this idea. By way of explanation, Hawking writes Just outside the event horizon there will be virtual pairs of particles, one with negative energy and one positive. The negative energy particle can tunnel into the hole, while the positive energy one escapes to infinity. Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 9 / 18

Main postulate of EQUILIBRIUM thermodynamics Isolated systems settle into equilibrium states having uniform macroscopic properties (in the absence of potentials)*, e.g. uniform pressure, temperature, density, magnetisation etc. An equilibrium state is one in which all the bulk physical properties do not change with time and are uniform throughout the system*. * for the special case where there is phase separation the system comprises homogeneous portions, with uniform properties in each portion. Note Surroundings and system need not be in equilibrium with each other. Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 10 / 18

Definitions Sample of interest = the system, interacts with surroundings, System and surroundings are separated by some kind of boundary wall. Closed system: cannot exchange matter with its surroundings, but may exchange energy eg. fluid in a heatable cylinder closed by a moveable piston Isolated system: No exchange of any material or energy with surroundings. eg fixed volume, insulated cylinder.. rest of universe surroundings system gas Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 11 / 18

State functions and state variables Thermodynamics is about MACROSCOPIC properties. The various properties that can be quantified without disturbing the system eg internal energy U and V, P, T are called state functions or state properties. Properties whose absolute values are easily measured eg. V,P,T are also called state variables. Relations between state functions for a particular material are called the equation of state of the material. Ideal gas: PV=nRT Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 12 / 18

Relationships between properties: Equation of state of Ideal Gas Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 13 / 18

Well defined boundaries: adiabatic and diathermal walls Two systems separated by a rigid wall. The right-hand system is compressed, work is done and temperature increases. gas more gas If the boundary is rigid and adiabatic, (no transfer of heat energy across it), the left hand sample is unaffected. If a thermal interaction (exchange of energy) can occur the rigid wall is called diathermal. the state of the left-hand gas sample changes and the regions come into in thermal equilibrium. If the boundary can move, the left-hand gas is also compressed, and the regions come into mechanical equilibrium when, due to friction, no net force acts on the boundary. Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 14 / 18

Experimentally observed Zeroth law of Thermodynamics. Consider two systems (A,B) in thermal contact. If A and a third system C are brought into thermal equilibrium, and this results in no change in the values of the state variables of A. then it is observed that B and C, if put in thermal contact are also in thermal equilibrium with each other. Diathermal walls: Heat may flow, boundary may move. A B A C B C This observation is the Zeroth Law of Thermodynamics: Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 15 / 18

Zeroth Law of Thermodynamics Zeroth Law: If each of two systems is in thermal equilibrium with a third system they are in thermal equilibrium with each other. The argument can be repeated for fourth, fifth,... systems (D, E,...). If each is in thermal equilibrium with all the others, they must have the same value of some property that has a common value. This property is called thermodynamic temperature T. The direction of heat flow tells us which system is at higher temperature. Thermodynamic equilibrium temperature gives an ordering from cold to hot, and defines equal temperature but is not a numerical scale Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 16 / 18

Ideal Gas Temperature Scale Empirical observation of Gas Laws leads to a temperature scale... We choose: T = T IG = PV /nr. T IG has a value stated in kelvin, denoted by the symbol K. Kinetic Theory Temperature Scale The kinetic theory connects empirical T IG to theoretical microscopic kinetic energy. m v 2 /2 = (3/2)k B T introducing Boltzmann s Constant k B = R/N A Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 17 / 18

A beardy equation For each degree of freedom Boltzmann s * Kelvins = Joules Thermodynamic equilibrium, ideal gas and kinetic energy Temperatures are the same thing = Graeme Ackland Lecture 1: Systems and state variables September 19, 2016 18 / 18

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