Section 6 - Electricity Flashcards
What is electric current?
Net flow of charged particles
What is the metal wire made up of?
A lattice of positive ions, surrounded by ‘free electrons’
How do ions move in a metal wire?
They vibrate about fixed positions
How do electrons move in a wire?
They are free to move from one ion to another
What happens to electrons when a battery is connected to a wire?
Free electrons are repelled by the negative terminal and attracted to the positive
What is drift velocity?
When a wire is connected to a battery and electrons move randomly, but in the same direction
At what point is there a current in a wire?
When electrons move in the same direction (electrons carry charge, current = flow of charge)
How does electric current flow through liquids?
- electrolyte (e.g. salt solution)
* when power supply connected, +ve ions move to -ve terminal and vice versa
The equation for current is found on the data sheet , what do the symbols stand for?
I= ▲Q / ▲T
I= ▲Q / ▲T I= current (amps) ▲Q= charge (coulombs) ▲T= time (seconds)
How is the coulomb defined?
The quantity of electric charge that passes a point in a circuit in 1s when a current of 1A is present
What direction does the current go in?
In the direction of positive charge
How is the ohm defined in words?
A conductor has resistance of 1Ω if a current of 1A flows across when a p.d. of 1V is applied
How is the ohm defined in an equation?
1Ω = 1V / 1A
What is Ohm’s Law?
provided physical conditions are constant the Current through a wire is proportional to the p.d. across it
What are Ohmic conductors?
Materials that obey Ohm’s law
What are the charge carriers in metals?
Conduction electrons
What are the charge carriers in a salt solution?
Ions
What is the convention for the direction of a current in a circuit?
Positive to negative
What can materials be classified as in electrical terms?
Conductors, insulators or semiconductors
How is potential difference defined?
As the work done (or energy transfer) per unit charge
What is resistance caused by?
The repeated collisions between the charge carriers in the material with each other and with the fixed ions of the material
How is the resistance of any component defined?
The p.d. across the component / the current through it
How is an Ohmic conductor represented on an I-V graph?
A straight line through the origin
How will an I-V graph show that a component is obeying Ohm’s Law?
Straight line through the origin
Why does a straight line through the origin on an I-V show that Ohm’s Law is being obeyed?
Gradient is constant so resistance is constant - for both directions of current flow
What is the I-V graph for a filament lamp?
A curve
What does the curved graph for a filament lamp mean?
Resistance increases as current increases
For a filament lamp, why does resistance increase as current increases?
The current has a heating effect
What is the I-V graph for a semiconductor diode?
Reverse bias for a negative p.d. and forward biased p.d. of 0.6V needed before diode conducts in forward direction
For which component’s graph showing I-V characteristics can the gradient be used for resistance for all values?
For ohmic conductors - for filament lamps and diodes, read values off the graph for R at a certain point
what are diodes?
diodes only let current flow in one direction
What is resistance proportional to, in terms of length and area?
Resistance of a uniform conductor is ∞ to length and 1/∞ to its cross sectional area
The equation for resistivity is found on the data sheet, waht do the symbols stand for?
ρ = RA / L
ρ = RA / L ρ = resistivity (ohm meters) R= resistance (ohms) A= cross sectional area (meters squared) L= length (m)
How can resistivity be defined?
As numerically equal to the resistance of a sample of the material of unit length and unit cross-sectional area at a particular temperature
Typical value of resistivity of copper at 20°C?
Good conductor - 1.7x10^-8 Ωm
Typical value of resistivity of nichrome at 20°C?
Conductor - 1.1x10^-6 Ωm
Typical value of resistivity of silicon at 20°C?
Semiconductor - 2.3x10^3 Ωm
what is glass at 20°C?
Insulator - 1.0x10^12 Ωm
A wire of uniform cross-section has a resistance of RΩ. What would be the resistance of a similar wire, made of the same material, but twice as long and twice the diameter?
1/2 RΩ
A wire of uniform cross-section has a resistance of RΩ. It is drawn to three times the length, but the volume remains constant. What will be its resistance?
9 RΩ
In general, how are resistivity and temperature of metals linked?
As temperature ↑, resistivity ↑
What happens, in metals at high temperatures, to resistance as temperature increases?
Resistance increases linearly with temperature
What does increased temperature mean for particles within a wire?
Ions vibrate faster, with greater amplitude, so it’s more difficult for the electrons to pass through the lattice (resistance ↑)
When can a metal become a superconductor?
Below its critical temperature
What does it mean if a metal becomes a superconductor?
It loses all of its resistance
Why do superconductor wires not become hot?
As electrons can flow through them without any transfer of energy
What are the particles like in insulators at room temperature?
There are few free electrons available for conduction
What are the particles like in insulators at high temperatures?
Some electrons have enough energy to ‘escape’ from their atoms and the insulator is able to conduct
What happens to resistance in insulators as temperature increases?
Resistance decreases
What is one of the best known semiconductor materials?
Silicon
How are semiconductors at low temperatures?
Poor conductors
What happens in semiconductors as temperature rises?
Electrons break free from their atoms and so it becomes a better conductor
What happens when silicon reaches 150°C?
Breakdown occurs and it becomes permanently damaged
When might a semiconductor material become permanently damaged?
When it reaches a certain temperature (e.g. when silicon reaches 150°C)
What is the relationship between temperature and resistance for semiconducting materials?
As temperature ↑, resistance ↓ (for many)
For materials where temperature ↑ as resistance ↓, what is a term that can be used to describe them?
They have a negative temperature coefficient of resistance (NTC)
What is an NTC?
A negative temperature coefficient of resistance so resistance decrease as temp increases.
What are semiconductor materials used to make?
Thermistors
Is there a p.d. when a material is a superconductor?
No - as a current flows but resistance = 0
When will a superconductor lose its superconductivity?
When it raises above its critical temperature
What is electrical power?
The rate at which electrical energy is converted to other forms of energy
What is the unit of power?
The watt
What is 1J per second equivalent to?
1 W
what is the equation for energy not found on the data sheet? hint it’s the easiest one
power = energy / time
whats the equation for energy transfer?
energy= power X time
The equations for power are found on the data sheet. what do the symbols stand for?
p=VI= I²R = V²/R
p=VI= I²R = V²/R P= Watts V= voltage (volts) I= current ( amps) R= resistance (ohms)
The equation for v is found on the data sheet. what do the symbols stand for?
V=W/Q
V=W/Q
voltage= work done (joules) / charge (coulombs)
What happens in terms of energy transfers when current flows through a resistor?
Electrical energy is transferred to heat
In which direction is the conventional current?
The flow of positive charge
In liquids, gases and semiconductors, which particles move in the direction of the conventional current?
Positive ions
In liquids, gases and semiconductors, which way do charge carriers flow?
In the opposite direction to conventional charge
In metals, what is the only type of charge that flows?
Negative - as the only charge carrier is the electrons
How does the current behave in a series circuit?
It is the same at all points
How does the current behave in a parallel circuit?
Current leaving and returning to the supply is the sum of the currents in the separate branches
What is Kirchoff’s first law?
The sum of the currents flowing into any junction in a circuit is equal to the sum of currents flowing out of that junction i.e. charge is conserved
What is Kirchoff’s second law?
Around any closed loop in a circuit, the sum of the emfs is equal to the sum of the p.d.s
Explanation of Kirchoff’s second law?
- we know that a coulomb gains electrical energy as it moves through each emf and loses electrical energy as it moves through each p.d.
- after one loop of the circuit, the energy it has gained must be equal to the energy it has dissipated
What does emf stand for?
Electromotive force
If two identical lamps are connected in series, what is their brightness?
They are equally bright, but not as bright as if they were connected to the battery on its own
e.g. total p.d. across both = 6V, and shared between 2 = 3V each
In a series circuit, what is the total p.d. equal to?
total p.d. across all components = sum of p.d.s across the separate components
When two identical lamps are connected in parallel, what happens to their brightness?
Each lamp is as bright as if it were connected to the battery on its own
What happens to p.d. in a parallel circuit?
It is the same across each branch
What model of energy transfer is used to explain why p.d. is equal across all branches in parallel?
- each coulomb transports all 6J of energy to the lamp
- each lamp receives same energy as if it were connected to battery on its own
- twice as many coulombs pass per second through the battery - so battery runs out more quickly
How is electromotive force defined?
The energy (chemical, mechanical, thermal etc,) converted into electrical energy when unit charge (ie 1C) passes through it
what are the equations for emf not found on the data sheet?
ϵ= I (r+R) found on data sheet
ϵ= V + v V = ϵ - Ir
ϵ= e.m.f V= terminal pd v= lost volts I = current r= internal resistance
What is emf and what is p.d. in any closed loop?
emf - supply of electrical energy
p.d. - conversion of electrical energy to other forms
For cells in series, how is total emf of their combination calculated?
By adding their individual emfs
For identical cells in parallel, how is total emf of their combination calculated?
Total emf is the same size as each of the cells individually
how to find the e.m.f and internal resistance and emf of a cell with a current vs p.d?
start with V= ϵ - Ir equation
rearrange to V= -rI + ϵ
Y=mX+c
the gradient is -r and emf is the y intercept
Why, for identical cells in parallel, is the total emf the same size as each of the cells individually?
Each charge only passes through one cell so gains energy from the single cell
Why, for a combination of cells in series, is the total emf calculated by adding the individual emfs?
Each charge passes through each cell so gains energy from all three
When resistors are in series, what is the current going through them and p.d. across them?
Current through each resistor is the same, and total p.d. across resistors is the sum of the p.ds across the separate resistors ie. V=V1+V2+V3
The resistance in a series equation is given on the data sheet. what do the symbols stand for?
Rt=R1+R2+R3
Rt=R1+R2+R3
Rt= total resistance
Rnumber= resistance of that component
When resistors are in parallel, what is the current going through them and p.d. across them?
Current in main circuit is the sum of the currents in each parallel branch, and p.d. across each resistor is the same
The equation for resistors in parallel is given on the data sheet. what do the symbols stand for?
1/Rt= 1/R1 + 1/R2 + 1/R3
1/Rt= 1/R1 + 1/R2 + 1/R3 Rt= total resistance Rnumber= resistance of that component
In a simple potential divider (two resistors in series), what happens to p.d. when resistors are identical?
Resistors share voltage equally
In a simple potential divider (two resistors in series), one resistor has a value of 200Ω and the other 100Ω, and the emf is 6V. What is the p.d. through each resistor?
200Ω = 4V
100Ω = 2V
Equation to calculate output and input voltage in a potential divider?
Vₒᵤₜ = Vᵢₙ (R₁ / R₁+R₂)
What components can be used as sensors in electronic circuits?
Thermistors and light dependant resistors
As a thermistor cools, what happens to its resistance?
Resistance rises
As an LDR receives less light, what happens to its resistance?
Resistance rises
In a circuit diagram, what is a loop around a cell and a resistor showing?
They are one component; the resistor is the cells internal resistance
What is emf equal to?
Terminal p.d. + lost volts
What happens if a driver starts a car with the head-lamps on?
The current through the battery is so large that the ‘lost volts’ are high - even though the battery’s internal resistance is low. Terminal p.d. drops and headlights dim.
What is emf equal to when there is no current in a cell?
The terminal p.d.
What is terminal p.d. ?
The p.d. across the terminals of the cell
What happens to p.d. as soon as current is drawn from the cell?
P.d. drops
Why does p.d. drop as soon as current is drawn from the cell?
The cell has internal resistance
What is an open circuit?
A circuit that is off, with no current
What is the p.d. defined as?
The amount of electrical energy changed to other forms of energy per coulomb of charge flowing between them
How can p.d. be defined using an equation?
p.d. = energy used by the component / charge passing
What does W equal in terms of I, t and V?
W = ItV
What is one volt?
The p.d. between 2 points in a circuit in which 1J of energy in converted to other forms when 1C of charge passes between them
How is the unit of 1V defined?
1J / 1C
Why is a loop drawn around E and r (battery and resistor)?
To show that they are one component
the equation for R is given on the data sheet. what do the symbols stand for?
R=V/I
R=V/I
R= resistance (ohms)
V= voltage (volts)
I= current ( amps)
the equation for ℰ is found on the data sheet. what do the symbols stand for?
ℰ=E/Q ℰ=I(R+r)
ℰ=E/Q ℰ=I(R+r)
ℰ= emf (volts)
E= energy (joules)
Q= charge (coulombs)
I=current (amps)
R= circuits resistance (ohms)
r= internal resistance if the cell
what three equations of emf are not found on the data sheet?
ℰ=V + v
ℰ=V= Ir
V=terminal pd
v= lost volts
I= current
r= internal resistance
whats rms voltage and currente? whats the equation?
VRMS= Vmax/ root2
IRMS=Imax/root2
rms is the average felt in an ac circuit
what are diodes?
diodes only let current flow in one direction
What is current?
The rate of flow of charge in a circuit.
What are the conditions for current to pass through a circuit?
- Circuit must be complete
* Source of p.d.
What is the unit for current?
Ampere (A)
What are charge carriers?
Charged particles that move around a circuit, allowing current to flow.
What are the charge carriers in metals?
Conduction electrons.
What are the charge carriers in a salt solution?
Ions.
What is the unit for charge?
Coulomb (C)
Which way does conventional current flow?
From + to - terminals.
Which way do electrons flow in a circuit?
From - to + terminals.
What must be remembered about the direction of current in a circuit?
- Although electrons flow from - to + terminals, this is not used.
- Conventional current is in fact considered, which flows from + to - terminals.
What is the symbol for current?
I
Describe the I/V graph for an ohmic conductor.
- Goes through the origin
* Straight line
Describe the circuit that can be used to determine the I/V graph for a component.
- Ammeter
- Component
- Voltmeter (across component)
- Variable resistor
- Battery
On an I/V graph for an ohmic conductor, what does a steep gradient signify?
Low resistance
On an V/I graph for an ohmic conductor, what does a steep gradient signify?
High resistance
Describe the I/V graph for a filament lamp.
This is ohmic :
- Curve
- Starts steep but gets shallower with voltage
- Rotated around origin
Describe the graph of resistance (y-axis) against temperature (x-axis) for a thermistor.
- Downwards curve
* Gradient becomes less steep with temperature
Describe the I/V graph for a thermistor.
- Upwards curve
- Curved upwards away from x-axis
- Rotated around origin
Explain the I/V graph for a thermistor.
- As p.d. increases, current increases
- This causes temperature to increase
- More electrons have enough energy to escape from their atoms
- More charge carriers -> Resistance decreases
- More current can flow, so graph curves upwards
How can you investigate the resistance of a thermistor?
Use water bath:
Put the thermistor into a beaker and pour boiling water into it, covering the thermistor.
Measure the temperature of the water using a digital thermometer.
Record the current through the circuit with the ammeter.
The potential difference needs to be kept constant throughout the experiment.
Keep recording current and temperature for every 5 degree drop.
From the values for current and potential difference, work out resistance for each temperature.
For NTC resistors, as temperature decreases, resistance increases (current will decrease).
What does the triangle symbol represent on a diode?
triangle symbol indicates the direction the diode will let current flow.
E.g. a large current can flow left to right (forward bias):
Describe the I/V graph for a diode.
- At negative voltage -> Very small NEGATIVE current
- At low positive voltage -> Small positive current
- Above threshold voltage (0.6V) -> Current increases linearly (starts of curved)
What is the circuit symbol for a thermistor?
Rectangle with diagonal line across it, with a short line at the end.
What is the circuit symbol for a diode?
Circle with a triangle and line in it.
What is the circuit symbol for an LED?
Circle with a triangle and line in it. Two lines pointing away from it.
What is the circuit symbol for a variable resistor?
A rectangle with a diagonal arrow.
What is the circuit symbol for a LDR?
A rectangle with two arrows pointing towards it.
What is the circuit symbol for a heater?
A rectangle divided into 4 squares.
Describe how you can calculate the resistivity of a piece of wire.
Risk assessment first.
Calculate area:
1) Measure the diameter at at least 3 points along the wire using a micrometre -> Find average -> Divide by two to get radius
2) Area = πr^2
Calculate R/l:
1) Set up a circuit with an ammeter, wire and voltmeter.
2) Attach a test wire along a ruler -> Attach one end where the ruler reads 0cm
3) Move the crocodile clip at the other end to adjust the length of the wire
4) Record the length of the wire and the resistance (R = V/I)
5) Repeat this to find an average resistance for that length
6) Vary the length from 0.10 to 1.00m
7) Plot a graph of resistance (y) against length (x) + draw a line of best fit (should be straight line through origin)
Find the resistivity:
1) The gradient is R/l, so it can be subbed in to the equation p = RA/l by multiplying by the area.
2) Take note to maintain the temperature of the wire constant at all times (since resistivity depends on temperature).
Describe the graph of resistivity (y) against temperature (x) for a superconductor.
- Line along the x-axis up to critical temperature
- Vertical spike at the critical temperature
- Straight line with upwards gradient after this
Describe an experiment to calculate the e.m.f. and internal resistance of a cell.
1) Connect the cell in series with an ammeter and variable resistor + connect a voltmeter across the cell
2) Vary the current using the variable resistor - start at highest resistance (open the switch and close it again to get two more sets of I and V values and find mean)
3) Record the voltage at each current.
4) Plot a graph of voltage (y) against current (x).
5) y-intercept = ε
Gradient = -r
Make sure external factors are kept the constant like temperature.
In the experiment to find the e.m.f. and internal resistance of a cell, how should the V and I values be plotted and why?
• V = ε - Ir Rearranges to: • V = -rI + ε • y = mx + c Therefore: • Plot V on the y and I on the x • Gradient = -r • y-intercept = ε
What is Kirchhoff’s second law?
Total e.m.f. around a series circuit = Sum of the p.d.s across each component
Describe e.m.f. in a series circuit.
- e.m.f. is split between components
* ε = V1 + V2 + V3 + …
Describe a series circuit in terms of:
• Current
• e.m.f.
• Resistance
CURRENT: • Same at all points EMF: • Shared between components RESISTANCE: • Total resistance is sum of the individual resistances
Describe a parallel circuit in terms of:
• Current
• e.m.f.
• Resistance
CURRENT:
• Split between branches (at each junction)
EMF:
• Same p.d. on each branch
• Within each branch, the sum of the p.d.s equals the e.m.f.
RESISTANCE:
• 1/R(total) = 1/R1 + 1/R2 + 1/R3 + …
What does a potential divider look like?
How do you get: V(out) = (R2 / (R1 + R2)) x Vs
In a potential divider, if the source voltage is 9V and R1 is 100Ω, what must R2 be in order to get an output of 6V?
200Ω
In a simple potential divider, what is the effect of replacing R1 (non-output resistor) with a variable resistor?
It allows the output voltage across R2 to be varied.
What is the circuit symbol for an LDR?
- Circle with a rectangle inside it.
- Wires reach to the rectangle, but not through it.
- Arrows point to the circle.
When an LDR is connected as R1 in a potential divider, with the output across another resistor, R2, how will the output vary as light increasing increases and why?
- Light gives the LDR a lower resistance.
- So it uses less of the PD and more can go to the output.
- Output voltage (V-out) increases as light intensity increases.
What happens to V-out when temperature increases (R1 = thermistor)
What is a potentiometer?
A type of potential divider that uses a single variable resistor instead of two fixed resistors to give a desired voltage output.
