Topic 10 Electricity and Circuits

Created by

Jodie Quinlan

Cards (99)

The atom has a central nucleus of positively charged protons and uncharged neutrons both with a mass of 1
Electrons are negatively charged particles found in the outer shells of an atom with a mass of 1/1835
Components in a circuit can be connected in parallel or series
In series circuits there are just one route the current can take around the circuit. In parallel circuits there are junctions that allow the current to take different routes
In series lamps cannot be switched on and off individually and if one lamp fails they all switch off
In the parallel circuit each lamp can be switched off separately
A voltmeter is connected in parallel with a component to measure the potential difference (voltage) in volt across it
Potential Difference is the energy transferred per unit charge passed and hence the volt is a joule per coulomb
Energy transferred (J) = charge moved (C) * Potential Difference (V)
An Ammeter is connected in series with a component to measure the current, in amps, in the component
The current in metals is a flow of electrons
Current is the rate of flow of charge.
Charge(c) = current (A) * time (s)
When a closed circuit includes a source of potential difference there will be a current in the circuit
Current Is conserved at a junction in a circuit
you need voltage in a circuit to 'push' current around an electric circuit
Potential difference (V) = current (A) * Resistance (ohm)
The cell transfers energy to the charge, and so the charge then has the potential to transfer energy to other components in the circuit (potential energy)
The potential difference of a cell is the amount of potential energy the cell transfers to each coulomb of charge flowing through it
Some wires and components need a larger potential difference to produce a current through them than others, this is because of their large electrical resistance
When resistors are connected in series the total resistance of the circuit is increased because the pathway becomes harder for current to flow through.
There will be a greater potential difference between circuits with higher resistances
The greater the resistance of a component, the smaller the current that flows
Variable resistors can change the resistance by changing the length of wire that makes up the circuit A longer length of wire has more resistance than a shorter length of wire
When resistors are connected in parallel the total resistance of the circuit is less than the resistance of the individual resistors. This is because there are more paths for the current
in a series circuit the different components are connected in a line, end to end, between the positive and negative ends of the power supply
series circuits are often designed to build and measure components because the p.d, current and resistance are quite easy to change, measure and calculate.
For a filament lamp, current and potential difference are not directly proportional. The resistance of the filament lamp increases as the temperature of the filament increases
A diode allows current to flow in one direction only
In fixed resistors the current is directly proportional to the voltage and inversely proportional to the resistance
In a diode more voltage leads to more current.
As voltage increases across the filament, the current also increases
thermistors have high resistances at low temperatures but as the temperature increases the resistance decreases
An LDR has a high resistance in the dark but the resistance gets smaller when the light intensity increases
A circuit used to explore variation in resistance of a lamp. It can be adapted to explore resistance in a diode, LDR or thermistor
when there is an electric current in a resistor there is an energy transfer which heats the resistor
electrical energy is dissipated as thermal energy in the surroundings when an electrical current does work against electrical resistance
The energy transfer as a result of electric current in a resistor, is the result of collisions between electrons and ions in the lattice
Resistance in circuits can be reduced by using wires made from metals with low resistance. thicker wires have lower resistance, resistance can also be decreased by cooling metals so that the lattice ions are not vibrating as much
The heating effect of an electric circuit is useful in an electric heater or kettle