Module 4 Fundamental electricity Flashcards

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1
Q

Definition of electric current

A

the rate of flow of (negative) charge

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2
Q

Unit for current?

A

Amperes, A

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3
Q

Unit for charge

A

Coulombs, C

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4
Q

Which letter is current in equations

A

I (i)

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5
Q

Definition of a coulomb

A

1 coulomb is the electric charge flowing past a point in 1 second when there is a current of 1 ampere

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6
Q

In terms of base units, what does 1C equal?

A

1As

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7
Q

What are charge carriers in a metal wire?

A

electrons

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8
Q

Formula for number of electrons using charge?

A

n=Q/e where Q is the charge and e is the elementary charge

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9
Q

In a metal where there is no current, describe the positioning of ions and electrons

A

Ions vibrate around their fixed positions - delocalised/free electrons move in random directions.

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10
Q

Describe the movement of electrons when a current flows in a metal?

A

electrons drift from negative to positive terminal (repelled by -ve, attracted by +ve)

with drift velocity

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11
Q

In an electrolyte, what are charge carriers?

A

positive and negative ions

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12
Q

What’s the direction of flow of conventional current?

A

from the positive to negative terminals

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13
Q

State Kirchhoff’s first law

A

the sum of currents entering a junction at any point in a circuit is equal to the sum of currents leaving the same point

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14
Q

What is conserved in Kirchhoff’s first law?

A

expression of conservation of charge

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15
Q

Define drift velocity

A

average displacement of electrons along a wire per unit of time towards the positive terminal of the power supply

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16
Q

What is number density?

A

number of conduction electrons per unit volume

(unit of number density m^-3)

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17
Q

What is an insulator?

A

materials which have very few conduction electrons that we say it’s negligible

18
Q

Equation for current using number density?

A

I=Anev

I current
n number density of electrons
e elementary charge
v drift velocity

19
Q

Effect of doubling radius on drift velocity in a wire?

A

A=I/nev, I n e are constant,
A proportional to 1 /v,
area is formed from πr^2 – 2r^2 = 4r so area is increased by 4
therefore 4A=1/0.25v

velocity is multiplied by 0.25

20
Q

What is the unit of potential difference?

A

Volts V

21
Q

Definition of potential difference

A

energy transferred per unit charge when electrical energy is converted to another form of energy

22
Q

Equation for potential difference?

A

V=W/Q
V potential difference
W work done
Q charge

23
Q

Electromotive force definition

A

Energy is transferred per unit charge when a type of energy is converted into electrical energy

24
Q

Equation for EMF?

A

E=W/Q

E EMF
W work done
Q charge

25
Q

Difference and similarities between EMF and potential difference?

A

Both are energy per unit of charge (both are measured in volts)

In EMF energy is transferred to electrical energy, in PD electrical energy is transferred into another form

26
Q

Define what is a volt?

A

joule per coulomb

27
Q

Why are both potential difference and EMF’s measured in volts?

A

both are energy transferred per unit of charge

28
Q

What is electrical power defined as?

A

rate of energy transfer

29
Q

Formula for power using time?

A

P=W/t

P Power
W work done or energy transferred
t time

30
Q

How is the rate of energy transfer related to in an electrical component?

A

P=IV or P = I^2 R or P=V^2/R

P Power or rate of energy transfer
I current
V potential difference across a component
R is resistance of the component

31
Q

How is potential difference related to resistance and current?

A

V=IR

32
Q

What is the unit for resistance?

A

Ohm’s - Ω

33
Q

Derive the equation for energy transfer (W=IVt) using P=W/t

A

P=W/t

Substituting P=IV we get IV=W/t

Rearrange to get W=IVt

34
Q

What effects the cost of running an electrical device?

A

cost is per unit of energy transferred,
power of the device and
how long it has been left running for

35
Q

What is the unit used to measure electrical energy in homes?

A

kilowatt-hour (kWh)

36
Q

Definition of the kilowatt-hour

A

Energy transferred by a device with a power of 1kW operating for a time of 1 hour

37
Q

How many joules in 1kWh?

A

1kW=1000W=1000Js^-1 (W=J/t)
1hr = 3600s
1kWh = 1000x3600
=3.6MJ

38
Q

State Kirchhoff’s Second Law

A

it states that in any circuit, the sum of electromotive forces is equal to the sum of the potential differences around a closed loop

39
Q

Which quantity is conserved in Kirchhoff’s second law?

A

Energy is conserved

40
Q

How can you distinguish between a conductor, a semiconductor and an insulator?

A

Refer to number density of charge carriers
conductor - high number of charge carriers per unit volume
Semiconductors - fewer
Insulators - negligible

41
Q

Describe the direction of flow of electrons in a circuit

A

move from the negative terminal (repelled) to the positive side (attracted) of power supply