What is Temperature?
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- Mabel Potter
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1 What is Temperature? Observation: When objects are placed near each other, they may change, even if no work is done. (Example: when you put water from the hot tap next to water from the cold tap, they both change.) In 18 th century, it was assumed that a substance called caloric flowed from one material to the other. It is now known that energy (called heat ) flows between them. When they stop changing, we say that they are in thermal equilibrium.
2 Zeroth Law of Thermodynamics: If objects A and B are separately in thermal equilibrium with a third object C, then A and B are in thermal equilibrium with each other. [This is an empirical law, i.e. based on our observations.] Suppose object C has some property, L C, that changes when it is brought into contact with different objects. After C is brought into contact with A, C changes until L C reaches its thermal equilibrium value L C (A). If C is brought into contact with B but doesn t change (because it is already in thermal equilibrium with B), then L C (B) = L C (A). That is, C is telling us that there is some property of A that has the same value as that property of B. This property is called temperature.
3 Or put another way: Heat (energy) flows between two objects if they are at different temperatures. It stops flowing when they are in thermal equilibrium i.e. at the same temperature. If they are initially at the same temperature, no heat will flow between them.
4 If object C has a convenient property that can be measured when its temperature changes, it is called a thermometer. One wants the thermometer to be: a) small (so it doesn t disturb the object being measured very much), b) have a property that can be measured fairly easily, and c) be reproducible. Common thermometers include volumes of liquids in a column (mercury, alcohol), resistance of metals or semiconductors, pressure of a gas, color of a liquid crystal.
5 To establish a temperature scale, one chooses two fixed points : materials in conditions that can be reproduced. The Celsius scale chooses a) ice-water mixture at 1 atmosphere (0 o C) and b) water-steam mixture at one atmosphere (100 o C). Then if one is using a thermometer with property L, the temperature of the material being measured (x) is: T C (x) = 100 o C [L(x) L(i-w)] / [L(s-w) L(i-w)] [Fahrenheit: T F (x) = 32 o F o F [L(x) L(i-w)] / [L(s-w) L(i-w)] so T F (x) = 32 + (9/5) T C (x) and T C (x) = 5/9 (T F (x)-32)] Problem: No guarantee that two different thermometers (e.g. alcohol and mercury) will exactly agree at any points besides i-w and s-w. Need to agree on a universal thermometer.
6 T C (x) = 100 o C [L(x) L(i-w)] / [L(s-w) L(i-w)] Observations: 1) The pressure of a gas in a fixed volume is proportional to the density (mass/volume) if the density is low. Therefore, for a given gas, [P(x)-P(i-w)] / [P(s-w) P(i-w)] is independent of the density (as long as the density is small). Density(1) = 6/3.6 Density(2) = 3 Density(3)
7 T C (x) = 100 o C [L(x) L(i-w)] / [L(s-w) L(i-w)] Observations: 1) The pressure of a gas in a fixed volume will be proportional to the density (mass/volume) if the density is low. Therefore, for a given gas, [P(x)-P(i-w)] / [P(s-w) P(i-w)] is independent of the density (as long as the density is small). 2) [P(x)-P(i-w)] / [P(s-w) P(i-w)] is also independent of type of gas (as long as the density is small). All gases give same temperature if density is small.
8 Universal Thermometer: Low density gas = Ideal Gas : Measure pressure in a fixed volume: T C (x) = 100 o C [P(x) P(i-w)] / [P(s-w) P(i-w)] P 0 at o C for any gas any low density Suggests shifting temperatures by o C: T = T C This is the absolute or Kelvin scale of temperature.
9 T(K) = T( o C) Since cannot have P < 0, cannot have temperatures < 0K. The lowest temperature ever achieved 0.3 nk. Absolute (Kelvin) temperature scale: T K (x) = 273 K [P(x)/P(i-w)] [ More accurately, T K (x) = K [P(x)/P(TP)] ] Triple point of water: temperature and pressure ( atm.) where ice, liquid, and steam coexist.
10 Item Boiling pt. of liquid helium (1 atm.) Boiling pt. of liquid nitrogen ( 1 atm.) Freezing pt. of water (1 atm.) Triple pt. of water Boiling pt. of water (1 atm.) Melting point of gold Sun s surface Temperature 4.2 K 77 K K K K 1337 K 5780 K Sun s interior (where fusion occurs) 15,000,000 K = 15 MK
11 Problem: The melting point of gold = 1337 K. What is this temperature in Celsius and Fahrenheit? T( o C) = T(K) K = 1064 o C T( o F) = 32 + (9/5) T( o C) 1337 K = 1947 o F Problem: The normal body temperature of a human = 98.6 o F. What is this temperature in Celsius and Kelvin? T( o C) = (5/9) (T( o F) - 32) 98.6 o F = 37 o C T(K) = T( o C) o F = 310 K
12 Low-Density (Ideal) Gases For a of a given material gas with low density m/v: P T(K) For a gas of a given material at a particular temperature: P m/v AND: Comparing different gases, for a given (low) m/v and T: P 1/M (molecular weight) P = constant * (m/m) T/V
13 Problem: The pressure of 2.4 g hydrogen gas (H 2, 2 g/mole) in 1 m 3 at 300 K = 0.03 atm. a) What is its pressure at 450 K? b) What would be its pressure at 300 K if twice as much hydrogen gas was in the container? c) What would be the pressure of 2.4 g of nitrogen (N 2, 28 g/mole) in 1 m 3 at 300 K?
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16 Problem: The pressure of 2.4 g hydrogen gas (H 2, 2 g/mole) in 1 m 3 at 300 K = 0.03 atm. a) What is its pressure at 450 K? b) What would be its pressure at 300 K if twice as much hydrogen gas was in the container? c) What would be the pressure of 2.4 g of nitrogen (N 2, 28 g/mole) in 1 m 3 at 300 K? a) Pressure temperature, so atm. b) Pressure density, so 0.06 atm. c) Pressure 1/molecular weight, so P = 0.03 atm (2/28) = atm.
17 P = constant (m/m) T / V The experimental value of the constant = J/mole K R = universal gas constant i.e. PV = (m/m) RT But mass /molecular weight = m/m = [g/ (g/mole)] = n (number of moles): PV = nrt Ideal Gas Law 1 mole = N A molecules, where Avogadro s number N A = 6.02 x /mole, i.e. n = N/N A, so PV = N (R/N A )T # moles # molecules PV = Nk B T, here k B = R/N A = 1.38 x J/K. = Boltzman s constant
18 PV = Nk B T How many molecules of air are in a room V = 5m x 6m x 3m at room temperature (T = 295 K) and atmospheric pressure (P = 1.01 x 10 5 N/m 2 = 1.01 x 10 5 Pa)? N = PV/k B T = (1.01 x 10 5 N/m 2 ) (90 m 3 )/[(1.38 x J/K)(295 K) = 2.23 x i.e. n = N/N A = (2.23 x molecules) / (6.02 x molecules/mole) = 3709 moles
19 Ideal Gas Law PV = nrt When is a gas (approximately) an ideal gas? a) Density low i) volume physically occupied by the molecules << volume of container ii) on the average, the molecules are far apart, so they don t feel each other (i.e. interact) except when they collide. b) T >> boiling point: iii) average kinetic energy of the molecules >> average intermolecular potential energy (so they don t stick together)
20 Molecules weakly attract each other at large distances n Molecules repel each other when they get very close For air (N 2 & O 2 & Ar) at room temperature and atmospheric density (n/v ~ 44 moles/m 3 ), the pressure deviates from the ideal gas law value by ~ 0.1%. For CO 2 at room temperature and atmospheric density, the pressure deviates from the ideal gas law value by ~ 0.3%.
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