Electricity

Created by

mishal azhar

Cards (22)

Electric current (I) 
The flow of charge per unit time, or the rate of flow of charge
Potential difference (V) 
The energy transferred per unit charge between two points in a circuit
Resistance (R) 
A measure of how difficult it is for charge carriers to pass through a component, calculated by dividing the potential difference across a component by the current flowing through it
Ohm's law 
For an ohmic conductor, current is directly proportional to the potential difference across it, given that physical conditions (e.g temperature) are kept constant
Ammeters have zero resistance, meaning they will not affect the measurement of current in a circuit at all
Voltmeters have infinite resistance, meaning no current can flow through them, meaning their measurement of potential difference across a component is exact
Resistivity (ρ) 
A measure of how easily a material conducts electricity, defined as the product of resistance and cross-sectional area, divided by the length of the material
As the temperature of a metal conductor increases 
Its resistance will increase
As the temperature of a thermistor increases 
Its resistance decreases
Superconductor 
A material which, below a certain critical temperature, has zero resistivity
Series circuit 
The current is the same everywhere in the circuit, and the battery p.d is shared across all elements
Parallel circuit 
The sum of the currents in each parallel set of branches is equal to the total current, and the potential difference across each branch is the same
When joining battery cells in series, the total voltage is equal to the sum of the individual voltages
When joining identical battery cells in parallel, the total voltage is equal to the voltage of one cell
Kirchhoff's first law 
The total current flowing into a junction is equal to the current flowing out of that junction
Kirchhoff's second law 
The sum of all the voltages in a series circuit is equal to the battery voltage
Potential divider 
A circuit with several resistors in series connected across a voltage source, used to produce a required fraction of the source potential difference
Internal resistance (r) 
Caused by electrons colliding with atoms inside the battery, therefore some energy is lost before electrons even leave the battery
Electromotive force (emf/ε) 
The energy transferred by a cell per coulomb of charge that passes through it
Terminal p.d (V) 
The p.d across the load resistor R
Lost volts (v) 
The p.d across the internal resistance r, equal to the energy wasted by the cell per coulomb of charge
The emf of a battery can be measured by measuring the voltage across a cell using a voltmeter when there is no current running through the cell, which means it is in an open circuit