Physics · Cheatsheet
Theme B · Particulate Nature of Matter
Chapter 2 · Electric circuits
📋 Reference · always available
Electric current
Rate of charge flow; amperes (A).
Voltage = energy/charge
Energy delivered; also .
Ohm's law
Electrical power
Resistors in series
Current SAME in each; voltages add ().
Resistors in parallel
Voltage SAME across each; currents add. Two: .
EMF & internal resistance
Terminal voltage .
1st law of thermodynamics
Energy conservation for a gas.
2nd law (entropy)
Total entropy never decreases; heat flows hot → cold spontaneously.
Carnot efficiency
Temperatures in kelvin; no engine can beat this.
Charge & the coulomb
1 C = 1 A·s (charge when 1 A flows for 1 s). Electron charge C.
Current direction
Conventional current: + → − in the external circuit. Real electrons flow the OPPOSITE way (− → +).
Inside a battery
Chemical energy does work to separate charge, maintaining the e.m.f. (energy per coulomb, V = J/C).
Battery symbol
Long thin bar = + terminal; short thick bar = − terminal.
Kirchhoff's laws
Junction: currents in = currents out. Loop: sum of e.m.f. = sum of drops (energy conservation).
Series vs parallel (why)
Series: same I, voltages add ⇒ R adds. Parallel: same V, currents add ⇒ total R < smallest branch.
Key SI units
: A · : C · , e.m.f.: V (= J C⁻¹) · : Ω · : W · : J.
Common traps
Confusing conventional current with electron flow; using kJ not J; forgetting internal resistance drops the terminal voltage.