Revision : Thermodynamics
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1 Revision : Thermodynamics
2 Formula sheet
3 Formula sheet
4 Formula sheet
5 Thermodynamics key facts (1/9) Heat is an energy [measured in JJ] which flows from high to low temperature When two bodies are in thermal equilibrium they have the same temperature The S.I. unit of temperature is Kelvin (KK). This is related to degrees Celsius by TT KK = TT Temperature difference ΔTT is the same in both units
6 Thermodynamics key facts (2/9) Heat energy needed to raise a temperature The specific heat capacity cc determines the energy QQ needed to raise the temperature of mass mm of a substance by TT QQ = mm cc TT Units of cc will be JJ kkkk 1 KK 1
7 Thermodynamics key facts (3/9) Heat energy needed to change phase The latent heat LL determines the energy QQ needed to change the phase of a mass mm QQ = mm LL Units of LL will be JJ kkkk 1 - can be fusion or vaporization This energy is either absorbed (solid liquid gas) or released (gas liquid solid) A phase change takes place at constant temperature
8 Thermodynamics key facts (4/9) Conduction is heat energy transfer by direct molecular contact Heat transfer TT + TT TT Power = QQ tt = κκ AA ΔTT Δxx Area AA κκ = thermal conductivity Thickness xx
9 Thermodynamics key facts (5/9) Convection is heat energy transfer by the bulk flow of material
10 Thermodynamics key facts (6/9) Radiation is heat energy transfer by emission of electromagnetic radiation Power = QQ tt = σσ AA TT4 σσ = Stefan-Boltzmann constant, AA = surface area of emitter, TT = temperature of emitter (assumes emissivity=1)
11 Thermodynamics key facts (7/9) Ideal gas law 1 st form : PP VV = NN kk BB TT PP = Pressure, VV = Volume, NN = number of molecules, kk BB = Boltzmann s constant, TT = temperature [in K] 2 nd form : PP VV = nn RR TT nn = number of moles, RR = gas constant
12 Thermodynamics key facts (8/9) Kinetic theory of ideal gas Pressure is due to molecular collisions Average kinetic energy of molecules depends on temperature 1 2 mmvv2 = 3 2 kk BBTT mm = mass of molecule, vv 2 = average square speed, TT = temperature
13 Thermodynamics key facts (9/9) Thermal expansion Materials expand due to temperature rise TT Length LL increases by LL = α LL TT where αα = coefficient of linear expansion Volume V increases by VV = ββ VV TT where ββ = coefficient of volume expansion
14 Practice exam questions: Section A KKKK = 1 2 mmvv2 = 3 2 kk BBTT Option C QQ = mm cc TT QQ = mm wwwwwwwwww cc wwwwwwwwww TT wwwwwwwwww = = JJ TT AAAA = Option B QQ = mm AAAA cc AAAA = 12 KK
15 Practice exam questions: Section A Heat energy loss is by conduction option B
16 Practice exam questions: Section A ΔLL = αα ΔTT LL Fractional expansion is the same option A Reflects radiation option A
17 Practice exam questions: Section B QQ = mm cc TT = = JJ
18 Practice exam questions: Section B Stefan-Boltzmann law: PP = σσ AA TT 4 Re-arranging: AA = PP σσ TT 4 = = mm 2
19 Practice exam questions: Section B Ideal gas law (using moles): PPPP = nnnnnn VV = 2.2 llllllllllll = mm 3 TT = = 143 KK PP = nnnnnn VV = = PPPP
20 Practice exam questions: Section C QQ = mm wwwwwwwwww cc wwwwwwwwww TT + mm cccccccccccc cc cccccccccccc TT QQ = = 5150 JJ QQ = mm iiiiii LL ff + mm iiiiii cc wwwwwwwwww TT = 5150 JJ LL ff = 5150 ( ) = JJ/kkkk
21 Practice exam questions: Section C Heat loss rate = κκ AA ΔTT xx = = WW
22 Practice exam questions: Section C Atomic mass = = kkkk 1 2 mmvv rrrrrr 2 = 3 2 kk BBTT TT = = 400 KK vv rrrrrr = 3kk BBTT mm = = mm ss 1
23 Practice exam questions: Section C QQ = PPPPPPPPPP TTTTTTTT = = JJ QQ = mm cc TT mm = QQ cc TT = = 2.4 kkkk
24 Next steps Make sure you are comfortable with unit conversions Review the thermodynamics key facts Familiarize yourself with the thermodynamics section of the formula sheet Try questions from the sample exam papers on Blackboard and/or the textbook
25 Revision : Electricity
26 Formula sheet
27 Formula sheet
28 Electricity key facts (1/9) Electric charge QQ is an intrinsic property of the particles that make up matter, and can be positive (e.g. proton) or negative (e.g. electron) The S.I. unit of charge is Coulombs (CC) The elementary charge (on a proton or electron) is ± CC Electric current II is the rate of flow of charge II = QQ tt II is measured in Amperes (AA)
29 Electricity key facts (2/9) Coulomb s Law gives the force felt by two charges QQ 1 and QQ 2 separated by distance rr FF rr QQ 1 QQ 2 FF FF = kk QQ 1 QQ 2 rr 2 kk = NN mm 2 CC 2 Like charges repel, opposite charges attract
30 Electricity key facts (2/9) Superposition principle for Coulomb s Law : if there are multiple charges, the forces from individual charges sum like vectors +ve FF 1 +ve FF tttttttttt = FF 1 + FF 2 +ve FF 2
31 Electricity key facts (3/9) The electric field at a point is the force a unit charge (qq = 1 CC) would experience there EE = FF qq FF = qq EE Can be represented by electric field lines Positive charge feels force along electric field line Negative charge feels force the other way
32 Electricity key facts (4/9) The electric potential difference ΔVV [in volts] is the work needed to move unit charge (qq = 1 CC) between 2 points Work done = Potential Energy difference = qq ΔVV Electric field is the potential gradient : EE = VV xx If capacitor with plate separation DD is connected to battery with potential VV, then EE = VV/DD
33 Electricity key facts (5/9) Basic circuit principles : current II is driven by a potential difference VV Same current flows through all components of a series circuit Same voltage is dropped over all components of a parallel circuit
34 Electricity key facts (6/9) Ohm s Law determines the current flowing through a resistance RR II = VV RR VV = II RR Resistance is measured in Ohms (Ω)
35 Electricity key facts (6/9) Resistances may be combined in series or parallel RR 1 RR 2 RR tttttttttt = RR 1 + RR 2 RR 1 [R increases] RR 2 1 RR tttttttttt = 1 RR RR 2 [R decreases]
36 Electricity key facts (7/9) Electrical energy is dissipated as heat by a resistor Electrical Power PP = II VV = II 2 RR = VV2 RR [unit is W]
37 Electricity key facts (8/9) A capacitor is a device to store charge. Its capacitance CC measures the amount of charge QQ that can be stored for given potential difference VV +QQ QQ CC = QQ VV QQ = CC VV Capacitance is measured in Farads (FF) VV Capacitors may be combined in series or parallel [see lectures]
38 Electricity key facts (9/9) General circuits may be analysed using Kirchoff s rules Kirchoff s junction rule : the sum of currents at any junction is zero II 2 II 1 II 3 II 1 + II 2 II 3 = 0 Signs are different for inward/outward current This rule arises from conservation of charge
39 Electricity key facts (9/9) General circuits may be analysed using Kirchoff s rules Kirchoff s loop rule : the sum of voltage changes around a closed loop is zero 9 4 II 1 2 II 2 = 0 9 VV 4 Ω II 1 2 Ω II 2 Battery adds potential VV, resistors subtract potential IIII This rule arises from conservation of energy
40 Practice exam questions: Section A Coulomb s Law: FF = kk QQ 1 QQ 2 rr 2 Double rr FF decreases by 1 4 option A Current is the same VV = II RR smaller voltage across smaller RR option B
41 Practice exam questions: Section A Decreases option B
42 Practice exam questions: Section B WW = qq VV AAAA VV AAAA = WW qq = 45 = 3000 VV
43 Practice exam questions: Section B Ohm s Law: II = VV RR = = AA
44 Practice exam questions: Section B 1 RR tttttttttt = 1 RR RR = RR 2 RR 2 = 230 kkω
45 Practice exam questions: Section C II 1 + II 2 II 3 = II 1 2II 3 = 0 5 3II 1 II 3 = 0 4II II 1 10 = 0 2II II 1 = 0
46 Practice exam questions: Section C VV bbbb = 10 + VV 6Ω = 2 VV VV 6Ω = 12 VV II 1 = VV RR = 12 6 = 2 AA From before: 5 3II 1 II 3 = 0 II 3 = 5 3II 1 = = 1 AA
47 Practice exam questions: Section C From before: 2II II 1 = 0 II 2 = 3II = 6 2 = 3 AA PP = II 3 2 RR = = 2 WW
48 Practice exam questions: Section C Combine the 2Ω, 4Ω, 6Ω resistors in parallel 1 RR pppppppppppppppp = RR pppppppppppppppp = 1.1 Ω Combine the 1Ω, 1.1Ω resistors in series RR tttttttttt = 2.1 Ω Ohm s Law: II = VV = 6 RR tttttttttt 2.1 = 2.9 AA
49 Practice exam questions: Section C Voltage across parallel combination = VV = 3.1 VV II = VV RR = = 0.52 AA
50 Final words Thanks to all students for their efforts in the Introduction to Physics course Please fill in feedback surveys! Good luck in the upcoming exams!
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