C10 Electrical Circuits Flashcards
Kirchhoff’s Second Law
- In any circuit, the sum of the electromotive forces is equal to the sum of the p.d.s around a closed loop.
- Σε = ΣV around a closed loop
Series Circuit Laws
- Current is same everywhere (only one pathway for charge to flow).
- e.m.f is shared between components, as there is only one closed loop.
In a series circuit which out of two components takes more emf? State why using Ohm’s Law
- The one with the larger resistance.
- V = IR, current is constant, so larger R = larger V.
Parallel Circuit Laws
- Current is shared between branches (multiple paths for charges).
- The greater the resistance of the branch, the lower the current.
- P.d. across each branch = e.m.f from power source.
Effect of adding resistors in a series circuit
- The length of the path taken by charges increases, so adding more resistors increasing resistance.
- R = R1 + R2 + R3
Effect of adding resistors in a parallel circuit, and formula for R total
- The total resistance drops, as each new resistor provides an additional path for the current to flow through the circuit, reducing the overall resistance.
- 1/Rt = 1/R1 + 1/R2…
Equations to tackle a complex circuit problem
- Kirchhoff’s Laws
I = Q/T
V = W/Q
P = IV
V = IR
Why do components have an internal resistance?
- Imperfections and impurities in a material can impede the flow of charge.
- Some energy is lost during conversions (e.g. electrical to heat/light/kinetic), and not all energy is available for the circuit.
Relationship between Kirchhoff’s Second Law, and e.m.f, and terminal p.d
electromotive force = terminal p.d. + lost volts
How does current affect the emf of a cell?
- Increasing current increases lost volts (decreasing terminal p.d).
- As current increases, more charges travel through the cell each second, so more work is done by the charges, increasing lost volts.
How do you approximate the e.m.f of a cell in a circuit?
- Use a voltmeter with a high resistance connected directly across a cell.
- This will approximate the e.m.f, as the high resistance will substantially lower the current to where it does not impede the terminal voltage.
How do you calculate lost voltage, thereafter terminal p.d. of a component? State formula for calculting emf with reistsance and resistivity.
- Lost voltage = I x Internal Resistance (r)
- Terminal P.D = EMF - Lost Volts
- EMF = I (R + r)
Investigating Internal Resistance
- Simple circuit with cell (internal resistance represented by fixed resistor), voltmeter, ammeter, and variable resistor (which will vary current across the cell).
- Graph I against V, y intercept = EMF, gradient = -r
Calculating the ratio of voltage between resistors in series
R1 / R2 = V1 / V2
What do potential divider circuits do, and when are they used?
- They divide the p.d. of a power supply to any value required.
- Useful for when limiting the voltage e.g. speaker, or when a specific voltage is needed in the moment.
