TEMPERATURE
thermal equilibrium: 2 bodies in contact have no net heat flow
zeroth law of thermodynamics: if 2 bodies are in thermal equilbm w/ 3rd body > they are in thermal equilbm w/ each other
temperature: property of a body that decides whether it is in thermal equilbm w/ another body
establishing temperature scale
-choose thermometric subs
-select thermometric prop X [X- length, pressure, resistance, emf]
-ensure X continually varies w/ temp
-choose fixed (temp) pts [mp of ice, bp of water] [at std pressure] (pressure ^, mp decreases, bp ^)
from exp results:
| steam pt
| 100°C
| Xs
|
|
| t°C
| Xt
|
| ice pt
| 100°C
| Xi
|
t/100 = (Xt - Xi)/(Xs - Xi) [assumed X varies linearly w temp]
Mercury in glass thermometer
thin capillary tube (bore): smaller for higher sensitivity (lower range)
large vol Hg bulb: more expansion per °C => more noticeable increase in Hg thread => lower range
thick glass wall: magnify Hg thread, make thermometer less fragile
thin bulb wall: fast heat conduction > quick response
mercury: expands uniformly, good conductor of heat, coloured, doesn't stick to glass wall
inaccuracy; not uniform bore, bulb shrinks after few years > affects 0 reading, not all Hg at same temp (only some in liquid)
Platinum-resistance thermometer
resistance of Pt increases / temp
t/100 = (Rt - Ri)/(Rs - Ri)
fine Pt wire wound on mica strip & connected to thick Cu leads
a pair of straight identical short-circuited dummy leads enclosed in same silica tube to compensate exactly for changes in R w/ temp of Cu leads to Pt wire
thermometer connected to Wheatstone bridge > adjusted until galvanometer reads zero => RPt = R
very sensitive, can't measure temp at a pt, expensive (Pt), slow response (large heat capacity)
Thermocouple
junctions made of 2 diff metal wires joined together kept at diff temp => small emf prod => I flow
thermo-emf depends on: type of metal, temp diff (emf proportional to temp change)
[emf-temp diff graph: always approx parabolic]
mercury-in-glass thermometer
-39 to 500°C
simple, direct reading, cheap, portable
not v.accurrate, small range, fragile
Pt-R thermometer
-200 to 1200°C
wide range, v.accurate, best for small steady temp diff
not suitable for rapidly changing temp (due to large heat capacity- slow response)
Thermocouple thermometer
-250 to 1500°C
wide range, fairly accurate, can measure -rapidly changing temp, -temp at pt
not as accurate as Pt-resistance thermometer within -200 to 600°C
thermometers based on diff property => diff values for same temp except at fixed pts where most agree by defn
disagreement due to assu