P- 2- Electricity

Question 1

• What is current

Answer 1

• The flow of Electrical charge

- Measured in Amps

Question 2

_ What is needed to make electrical charge flow

Answer 2

• Complete circuit

- Potential difference

Question 3

• What is potential difference

Answer 3

• Force that pushes the charge- volt

Question 4

• What is the distribution of current around a full circuit

Answer 4

• Even at every point

Question 5

• What is resistance

Answer 5

• Anything that slows the flow down

- Measured in ohmes

Question 6

• What does current depend own

Answer 6

• Potential difference and resistance

Question 7

What does total charge depend on

Answer 7

• Current and time
• Q= It
• Charge flow = current x time

Question 8

What are the symbols of cell and resistor

Answer 8

Cell - —-±||—–

Resistor ——| |——–

Question 9

What are the symbols for battery and variable resistor

Answer 9

Battery ——±| |——-±| |——-

Variable resistor —|_/|

Question 10

What are the symbol for switch open and ammeter

Answer 10

Switch open- ___./ ._____

Ammeter - A - in circle

Question 11

• What are the symbols for voltmeter and switch closed

Answer 11

• Switch closed- __.__.___

- Voltmeter- —V—- In circle

Question 12

What are the symbols for filament lamp and diode

Answer 12

Filament - —-x—- - In circle

Diode- —–|>|— In circle

Question 13

What re the symbols for fuse and LDR

Answer 13

• Fuse - ——|——-|——-
  
  LDR- —–|___|——–

Question 14

• Wat are the symbol;s for LED and thermistor

Answer 14

//
- LED- ---|>|----- 

Thermistor—-|_/___|——-
_/

Question 15

• What is the formal for potential difference and current

Answer 15

• Potential difference = Current x resistance

Question 16

• How can you investigate resistance factors

Answer 16

• Wire length
• Attach crocodile clip to wire at 0cm
• Attach second crocodile clip to wire - writer down length between
• Close switch and mature current and PD
• Open switch and move along a fixed measurement and retest- repeat
• Use measurement and calculate resistance using formula
• • Polt graph- should be directly proportionate
• IF not may be a systematic error e.g first clip not at 0

Question 17

• What its the ammeter

Answer 17

• Measures current in amps flowing through a wore

- Placed in series with what you are doing

Question 18

• What is a voltmeter

Answer 18

• Potential difference across test wire

- Must always be placed in parallel around what you are testing - not around any other

Question 19

• What happens in resonance of Ohomic conductors

Answer 19

• It does not change with current
• e.g wire or resistor
• at constan temp current flowing is directly proportionate t potential difference

Question 20

• What happens in appliances where resistance changes

Answer 20

• e.g diode and filament lam
• Filament- - transfers energy to thermal store - heats up - resistance increases with temperature - as current increases so does resistance
• Diode- Depends on direction of current - very high resistance if reversed

Question 21

what are I- v Characteristics

Answer 21

• Refers to a graph which shows how current flowing through changes as potential difference increases
• Linear components I-v are straight ;owed-
  -Non linear- Curved
  -

Question 22

• How can you test for the I-v Characteristics

Answer 22

• Set up test circuit with variable resistor, component, ammeter, voltmeter, component and battery
• Begin to vary variable resistor- alters current flowing an potential difference
• Take several pairs of readings from ammeter and voltmeter- to see how potential difference varies as current varied- repeat and get average
• Swap over wires so its reversed
• Plot a graph of current against voltage

Question 23

• What do I-v Characteristic s look like for , ohmic conductors, filament lamps and diodes

Answer 23

• Ohomic- Straight- linear
• Filament- Curved going both under and over
• Diode- Only appears in positive and steep

Question 24

What is LDR

Answer 24

• Light dependant resistor
• Dependent on intensity of light
• Bright light causes resistance to fall
• Darkness - resistance is highest
• e.g Automatic night lights and burglar detectors

Question 25

-What is a thermistor

Answer 25

• Temperature dependant resistor
• Hot conditions cause resistance to drop
• Cool conditions cause increase in resistance
• Good tematyre sectors e.g car engines

Question 26

What can sensing circuits be used for and how

Answer 26

• Turn on or increase power to components depending on conditions
• Fixed resistor will always have the same potential difference as there connected in parallel
• PD is shared between thermistor and loop according to resistance - bigger resistance means more PD
• As it become shorter Resistance of thermistor decreases- more PD to fan- Fan goes faster when its hotter

Question 27

What are sires circuits

Answer 27

• Different comments are connected in a line end to end, between =ve and -ve of power supply - except voltmeters
• If you remove or disconnect one component the circuit is broken- not very practical
• Measure quantities and test components

Question 28

• What are the characteristics of a sires circuit

Answer 28

• Potential different is shared- always add unto source
• Current is equal everywhere - size of current is determined by total PD of cells and total resistance of circuits - I = V//R
• Resistance adds up- total resistance adds together to find ass- as they have to share PD- Total current is reduced when resistor is added - bigger resistance is the bigger its share

Question 29

• Give a worked example for finding current passing through as 20 volt circuit with one 2 Ohme resistor and a 3 homes resistor

Answer 29

• Resistance total + 5 Ohmes
• I= V= R

20//5

+ 4A

Question 30

• What are parallel circuits

Answer 30

• Each component is separate;y connected to +VE and -VE of Supply- except ammeters
• If you remove or add one nothing changes
• Most things connected this way

Question 31

• What are the characteristics of a parallel circuit

Answer 31

• All components get full source of PD- PD same across all components- means all bulls are same brightness
• Current is shared- Total current = total of current in all other components
• Junctions where current splits or junctions- HAs to be equal to current leaving
• IF identical components are connected they all have the same current
• Adding a resistor reduces total resistance- IF you have two their total resistance is less than resistance of smallest of two resistor

Question 32

-How do you investigate the effect of adding resistors in Siries circuits

Answer 32

• Need four identical resistors
• Build circuit using one resistor- make not of PD
• Measure current- Calculate resistance to measure current
• Add another resistor and measure current
• Repeat
• Plot
• Should follow linear positive

Question 33

• What can you do to investigate effect off restores in Parallel circuits

Answer 33

• Set up parallel circuit
• Need four identical resistors
• Measure total current and calculate current using resistance- V being PD of battery
• Add restore sea repeat
• Plot graph
• Should follow non direct proportional negative lines- that follows the diminishing returns

Question 34

• What is alternating current

Answer 34

• Current is constantly changing directions
  _ Produced by alternating voltages- positive and negative is costly switching
• Uk mains ac supply is 230 - 50 HZ- or cycles per seconds

Question 35

• What is direct current

Answer 35

• Current laws flowing in same direction
• Created by direct voltage
• Batteries

Question 36

• How are most cables in plugs structured

Answer 36

• 3 sperate wires - Core of copper and coloured plastic stating
• Colour of insulation on each cable shows purpose - always sa,e

Question 37

• What are the three parts of the club and there function

Answer 37

• Natural wire - Blue- Complete circuit and carries away current- Normally flows in through live and out though neutral
• Live- Brown - Provides alternating potential difference- 230v- flows into
• Earth wire- green and yellow- Protecting wire and safety- stops appliance casing from becoming live- no current usually

Question 38

• How can live wire give a shock

Answer 38

• Large potential differences produced across body and current flows through you
• Causes shock that may kill you
• Even if its off - there is still POD and a risk of a shock- Body would provide link and current flows through you
• Any connection between li e and earth can be dangerous. Link may create path top earth and huge current would flow- causing a fire

Question 39

• How is energy transferred

Answer 39

• From cells and other courts
• Moving charge transfers energy as charge works against resistance
• Electrical appliances are designed to transfer energy to components

Question 40

• Give tow examples of how appliances

Answer 40

• Kettles transfer electrical from mains into thermal to heating element
• handheld fan- Electric from battery into kinetic
• Not all useful- higher current causes higher amounts of thermal energy transfer

Question 41

• What does energy transferred depend on

Answer 41

• Power

- Toal energy by an appliance depends how long the appliance is on for and its oiler

Question 42

• What is power

Answer 42

• Is energy that it transferred per second

- More energy means more power

Question 43

• How can you work out energy transferred

Answer 43

• Energy transferred = Power x time

E=Pt

Question 44

What is a power rating

Answer 44

• labelled with maximum safe oiler they can operate at
• Maximum amount of energy transfer between stores per second
• Helps customer choose- lower power ratings- less electricity is uses- cheaper
• Higher power rating does not mean more energy is transferred - fails to address usefulness of energy transferred

Question 45

• What is potential difference

Answer 45

• Energy transferred per charged passed
• When electrical charge goes through a change in potential difference then energy is transferred
• Energy supplied to charge at power source to raise it through a potential
• ## The charge gives up this energy where it falls through any potential drop in components

Question 46

• What is the formula for potential difference

Answer 46

• Energy transferred = Charge flow x potential difference
  E= QV

-

Question 47

• What does a battery with a lager PD mean

Answer 47

• Will supply more energy for every coulomb of charge which flows around it, because charge is raised higher at the start

Question 48

• How does power depend in current and potential difference

Answer 48

• Power = Potential difference x current
• if you don’t know potential difference you can rearrange to get P= I2R
• R- resistance

Question 49

• How is electrify distributed

Answer 49

• Via the national grid
• • giant system of cables and transformers that covers Uk and connects power stations to consumers
• National grid transferred electrical power from power stations to demand

Question 50

• What does production have to meet

Answer 50

• Demand
• usage changes throughout day- power stations have to keep up with this demand
• Can predict when demand is highest- e.g time of day or big event
• Many run far below maximum power output so they can always meet high demand
• Lots of power stations that are smaller can open up fast if in need

Question 51

• What does the national grid use

Answer 51

• High potential difference and low current
• To transmit he amount of power you need either high
• Problem with high current is you lose loaf of energy to thermal loss
  0 Most chapter to boost PD to 400,000 and keep current low
  – mAke it very efficient

Question 52

• How is potential difference impacted by transformers

Answer 52

• To get to such a high PD requires transformers as well and big pylons and huge insulators - but its still cheaper
• The transformer shave to step the potential difference up at one end and down to a usable level at another

Question 53

• How is potential difference increased and reduced

Answer 53

• PD increased using step up transformer

- Reduced using step down transformer