Chapters 4.1, 4.2, 4.3 - Electricity

Question 1

Electric Current

Answer 1

The rate of flow of charge

Question 2

Coulomb

Answer 2

Unit of charge - 1 Coulomb of charge will pass a point in 1 second by a current of 1 Ampere

Question 3

Charge on an electron and proton

Answer 3

Electron: -e
Proton: +e

Question 4

What is the net charge on an object always a multiple of and what is this called

Answer 4

Net charge is always a multiple of e. This means it is quantised

Question 5

Physically, what is current in a metal

Answer 5

Movement of electrons

Question 6

Physically, what is current in an electrolyte

Answer 6

Movement of ions

Question 7

Kirchoff’s first law and associated conservation

Answer 7

Sum of the currents entering a junction is equal to the sum of the currents leaving a junction (conservation of charge)

Question 8

Charge carrier

Answer 8

What carries the charge in a current (electron/ion)

Question 9

Mean drift velocity

Answer 9

The average velocity of all electrons in a section of a circuit

Question 10

Current equation in terms of electron drift velocity

Answer 10

I=Anev
where
I is current
A = cross sectional area
n = number of charge carriers per unit volume
e = charge on a charge carrier
v = mean drift velocity

Question 11

Distinction between conductors, semiconductors and insulators in terms of n

Answer 11

Conductors - high n
Insulator - very low n (perfect insulator would have n=0)
Semiconductor - low n

Question 12

Resistance

Answer 12

Energy per coulomb needed to pass a current of 1A through

Question 13

Ohms law

Answer 13

V=IR

Question 14

Resistivity of a material

Answer 14

The resistance of a 1m length of the material with a cross sectional area of 1m^2

Question 15

Equation for resistance in terms of resistivity

Answer 15

R = ρL/A
where
R is resistance
ρ is resistivity
L is length
A is cross sectional area

Question 16

Typical order of magnitude of resistivity

Answer 16

Very small e.g. 10^-8

Question 17

Ohmic conductor

Answer 17

A conductor which obeys ohms law.

The potential difference across a conductor is directly proportional to the current in the component as long as its temperature remains constant

Question 18

Experiment to determine resistivity of a wire

Answer 18

Determine cross sectional area of wire standard way. Set up a circuit with ammeter in series and voltmeter around the wire. Have one end of the wire connected via crocodile clip that can be moved up and down the wire and have the wire set up next to a ruler. Attach the crocodile clip at various places along and record the current, potential difference and length at each point. Calculate resistance as V/I. Plot R against L. Gradient will be ρ/A

Question 19

How to improve accuracy of experiment to determine resisrtivity

Answer 19

Keep the wire at a constant temperature by only using a small current

Question 20

Energy transfer in a circuit

Answer 20

Work done = potential difference * charge

W = VQ

Question 21

How to calculate the kinetic energy of an electron that is accelerated over a potential difference

Answer 21

W=VQ
W=Ve
(1/2)mv^2=Ve
So the kinetic energy of an electron is equal to the potential difference * its charge

Question 22

How to investigate I-V characteristics of a component

Answer 22

Set up a circuit with an ammeter in series and a voltmeter around the component. Also have a variable resistor in series. Vary the resistance to change the potential difference over the componenet

Question 23

I-V characteristic for a normal resistor

Answer 23

Straight line through origin

Question 24

What is the gradient of an I-V graph

Answer 24

1/Resistance

Question 25

I-V characteristic for a filament lamp

Answer 25

Curved through origin in shape of a sigmoid function. Increasing the voltage increases the temperature and therefore the resistance, hence the gradient gets shallower

Question 26

How temperature affects resistivity of a metal and why

Answer 26

High temperature increases resistivity. This is because the positive ions in the metal vibrate more and therefore collide more with electrons, which causes the electrons to lose energy

Question 27

Explain resistivity of a semiconductor

Answer 27

Lower than that of a metal due to fewer charge carriers. When energy is supplied, electrons are released since they are given just enough energy, meaning that there are more charge carriers and therefore lower resistivity.

Question 28

Resistance-Temperature characteristic of a thermistor (NTC)

Answer 28

y=1/x

Temperature increase results in resistance decrease, so it is the inverse of a normal resistor

Question 29

I-V characteristic of a thermistor (NTC)

Answer 29

Looks like a x^3 graph

Question 30

I-V Characteristics of a LDR

Answer 30

Essentially the same as a thermistor in all ways except the energy is provided by light instead of thermal energy

Question 31

What does a diode do

Answer 31

Only allows current to flow in one direction and only allows the current to flow in that direction if it has a P.D higher than the threshold voltage (minimum voltage to start conducting)

Question 32

I-V characteristic of a diode

Answer 32

Very shallow line in negative P.D. In positive P.D. it is 0 up until the threshold voltage where it starts increasing rapidly

Question 33

Forward bias

Answer 33

The direction that current is allowed to flow in a diode

Question 34

Equation for power

Answer 34

P=IV
where
P is power
I is current
V is voltage

Question 35

Equation for total work done by a circuit

Answer 35

W=Pt
or
W=VIt
or
(many others from rearranging V=IR)

Question 36

kWh

Answer 36

The work done by something with a power of 1 kilowatt in 1 hour = 3.6 million joules

Question 37

One unit of energy

Answer 37

One kWh

Question 38

Electromotive force

Answer 38

The amount of work a power source does on each coulomb of charge

Question 39

Transformation of energy over a potential difference

Answer 39

Electric to another form

Question 40

Transformation of energy by the electromotive force

Answer 40

Another form to electric

i.e chemical > electrical

Question 41

Internal resistance

Answer 41

Resistance that is inherent to the power source

Question 42

Why is terminal p.d. different to the e.m.f.

Answer 42

Some of the potential difference is lost overcoming the internal resistance

Question 43

Lost volts

Answer 43

The energy wasted per coulomb overcoming the internal resistance (e.m.f. - terminal p.d.)

Question 44

What is the equation ε = V + v referring to

Answer 44

ε is the e.m.f.
V is the terminal p.d.
v is the lost volts

Question 45

What is r and R

Answer 45

r is the internal resistance

R is the load resistance (external resistance)

Question 46

effective e.m.f. of cells in series

Answer 46

ε + ε + ε…

Question 47

effective e.m.f. of identical cells in parallel

Answer 47

ε (no effect)

Question 48

Experiment to determine internal resistance

Answer 48

Set up a circuit with a variable resistor, ammeter and voltmeter around the resistor. Vary the resistance and record the p.d. and current and plot them on a graph (with p.d as the vertical axis).
ε = V +Ir
V = ε - Ir
therefore y intercept is ε and gradient is -r

Question 49

Kirchoff’s second law and associated conservation

Answer 49

Sum of p.d. in a closed loop (conservation of energy) equals sum of e.m.f in a closed circuit .

Question 50

hopefully u can analyse circuits

Answer 50

i hope so

Question 51

Explain potential divider

Answer 51

Two resistors in parallel divide the potential among them, proportional to their resistance. Decreasing the resistance of one will decrease the p.d. across it and therefore increase the p.d. across the other resistor (by kirchoff’s 2nd)

Question 52

How a potentiometer works

Answer 52

It is just a resistor in series but with a wire running parallel to it. Whats the catch you say? Well the catch is that one end of the wire is just touching the resistor at some point along it and this distance can be change by a slider, essentially simulating a potential divider

Question 53

How to investigate a potential divider

Answer 53

Vary the resistance of one of the resistors and record the p.d. across the other resistor as well as the current. Resistance could be varied by the resistor being a thermistor, LDR e.t.c