Electricity

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Electricity stuff and equations...
Duinianne
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Duinianne
Criado por Duinianne mais de 9 anos atrás
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Questão Responda
Voltage : Electrical potential energy per unit change (ex. per electron) caused by separation of charge. * Anytime charged objects that are attracted to each other are held apart, we get voltage. Electrons will move toward + charge if a pathway is provided.
Voltage Equation : Voltage = Energy / Charge V = E / Q SL Units: Voltage = Volts - V Energy = Joules - J Charge = Coulombs - C
Current : Is the rate of the flow of electrons. It is the amount of charge that passes a point in the circuit in one second. * Current is caused by voltage and a complete pathway (circuit) from negative to positive.
Current Equation : Current = Charge / Time I = Q / T SL Unit: I is measured in Amperes (Amps) Symbol: A
Voltage Equation Practice : A battery moves 30c of charge to the negative terminal and produces 60 J of energy. What is its voltage? Take Information out the equation: Q = 30c E = 60J V = ? Put it back in the equation: V = E / Q V= 60 / 30 V = 2v
Current Equation Practice: Calculate the current if 4500c of charge pass by in 5 minutes? Get Information out of the question: Q = 4500c T = 5 mins change into seconds - 300s I = ? Put information into the equation: I = Q / T I = 4500 / 300 I = 15A
An Ammeter An ammeter measures the current flowing through it. It can be placed anywhere within the circuit since current is the same everywhere.
A Voltmeter A voltmeter measures the difference in energy per unit charge between 2 places in a circuit, so it is placed around a power source or resistor (such as a bulb).
Resistance Resistance is the ratio of voltage to current. - The higher the resistance in a circuit, the more current is restricted. High resistance = Lower current
Ohm's Law V = IR R = Resistance SL Unit: Ohm - Ω
Factors affecting Resistance Resistivity: The nature of the substances i.e. how easily electrons flow through it. Length: The greater the length the higher the resistance. Cross-sectional Area: The greater the diameter the lower the resistance. Temperature: The higher the temp, the greater the resistance.
Power Power refers to the amount of energy transformed in a given amount of time. P = VI SL Unit: Watt - W * The brightness of a bulb is an example of power.
Parallel Circuit VT = V1 = V2 IT = I1 + I2 1/RT = 1/R1 + 1/R2 VT = IT RT
Series Circuit VT = V1 + V2 IT = I1 = I2 RT = R1 + R2
Ohms Law V = IR
Current Other Equations: I = Q / T I = QE
Power ( Watt) Other Equations: P = VI P = I2 R P = V2 / R P = E / T
Resistance Equation: R = P X 1 / A

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