Electricity
StaticCurrent Electricity occurs in 2 different forms
Current Electricity Moving electricity Electrons flow through a conductor - material that allows electrons to flow through Circuit = continuous loop for electrons to flow Needs energy supply
Electrical components Wire Ammeter Battery Fuse Connected wires Bulb Switch Voltmeter diode Resistor Rheostat
CIRCUIT TYPES The simplest type of circuit involves electricity going around with no “choices” (electrons don’t really choose). This is called a Series circuit. Draw the path the electrons travel-out the negative toward the positive The other main type of circuit has two or more branches. This is called a Parallel circuit. Draw on the electron flow. What sort of circuit is this? A parallel… but, more importantly… A short circuit.
Series circuit Has a single loop for electrons to travel round Components are connected one after another Current has to travel through all components Current is the same at all points Voltage is shared between components It is either all on or all off
Series circuit ed.org/EducationResources/High School/Electricity/seriescircuit. htmhttp:// ed.org/EducationResources/High School/Electricity/seriescircuit. htm
Parallel circuit Has two or more paths for electrons to flow down Current is shared between the branches Sum of the current in each branch = total current Voltage loss is the same across all components
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Electricity Electricity is forced around a circuit by an electrical force field Flow of electricity around a circuit is called CURRENT (I) Current measured in amps (A) Voltage (V) – Increase or decrease in the amount of electrical energy carried by the current.
Current (I) Current is the flow of electrons around a circuit DC = direct current like battery Electrons flow in one direction AC = Alternating current like mains Electron flow changes direction 50x per second
Ammeter Measures CURRENT(I) Unit = Amp (A) Current is flow of electrons Connect in series at the point you wish to measure
Voltage (V) Gain or loss of energy as it passes through a component Voltage lost = voltage gained In series voltage loss is shared between components In parallel voltage loss is the same across all components
Voltmeter Measures voltage Unit = Volt (V) Voltage increases as it passes through energy suppliers Voltage is decreased as it passes through users Connect in parallel around a component
SUMMARY In SeriesIn Parallel Current Voltage Always the same The branches share electrons and add to the total Voltage from source = voltage used Voltage is shared between power users Voltage is the same in all branches
Resistance (R) The amount that a component slows the current As the electrons are slowed by a resistor, energy is lost in the form of heat. This means that current, resistance and voltage must be linked. This is Ohms law The unit of resistance is the ohm, symbol V IR×
Power Energy used by component per second Unit of power is the Watt, symbol is W One watt means that 1 joule of electrical energy is being used up per second. Current, voltage and power are linked P IV×
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Electricity Generation Brainstorm ways to generate electricity
Fossil Fuels
Hydro Dam
Hydroelectric power
Nuclear power
Wind Power
Tidal Power
Geothermal
Solar Solar water heating Photovoltaic cells Solar furnace
PROBLEMS 1. Fill in the gaps in the table. ab cd ef g h i j kl
Temperature & Heat Temperature is a measure of the average kinetic energy of the particles. Degrees Celsius ( C ) Heat energy is a measure of the total kinetic energy of all the particles making up an object. joules ( J ) or kilojoules
Transferring Heat Energy Conduction Convection Radiation
Diodes and Switches Diodes let electrons flow in one direction Switches allow electrons to flow or not
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