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Transcript
DC Circuits Circuits can be very simple…… • Or complex ………… Key idea: Electric Current. Electric current is a flow of electrons, (usually in a metal wire.) Electric Field - + • The electrons are in an electric field, so they experience a force that pushes them along the wire. Electric Field - + Force • For a current to flow you need two things: • 1) A source of electrical energy • For a current to flow you need two things: • 1) A source of electrical energy • For a current to flow you need two things: • 1) A source of electrical energy 2) …… AND a closed circuit • The drift velocity of electron in a wire is a few mm per sec. • Why does the lamp turn on as soon as the switch is closed? Electric Current The size of the current flowing is the amount of charge passing a point in one second. • In a torch, this is about six million million million electrons in one second. • This is called One Amp of current • Remember six million million million electrons is called One Coulomb of charge. • So One Amp is One Coulomb flowing every second 1Coulomb 1Amp 1sec ch arg e Current time q I= t • Key idea: • Voltage: This is the amount of energy gained by each coulomb of charge in a battery (or other source) Or The amount of energy lost by each coulomb of charge in a lamp (or other user) • What happens when the voltage is increased? Electrons have more energy and they travel faster • What happens when the resistance is increased? Electrons have same energy but they travel slower Ohms Law voltage current= resistance V I R V I R V I R V V R I I • What does the graph show? • Which resistor has highest resistance? V I • This is an ohmic resistor. The resistance is constant. Non Ohmic Resistors Some things don’t have constant resistance V R I R=…. voltage R=…. R=…. R=…. current • nb, the resistance is NOT the slope of the graph in this case. • Because the resistance increases with temperature, V increases as the current I increases • Diode I • Diode is forward biased, resistance is LOW • Diode Diode is reverse biased, resistance is HIGH voltage V R I R R R R current Series and Parallel Circuits 2 Amps 2 Amps 6 Volts Current in series circuit is the same at any point. Voltage gained in battery = Voltage lost in lamp Series Circuit 6V 1 Amp 0V 1 Amp 3V 3V Current is now only 1 Amp. Resistance is double) Current is the same at any point. (not same as before) Voltage gained in battery = Voltage lost in both lamps 4Amp Current through each lamp is 2 Amp Current from battery splits, and is shared by the lamps 2Amp 2Amp Voltage gained in a loop = Voltage lost in the loop Voltage gained in battery = Voltage lost in each lamp • examples • Find the size of the current (I) 3A I • 3A • Find the size of the voltage (V) 4V 3V V • 7V • 1A • Find the size of the resistance 15Ω 6Ω • 21Ω 15Ω 6Ω • What happens to the total resistance if another resistor is added in series 15Ω 6Ω 6Ω • increases • Find the size of the current (I) V 4V 6Ω 10 V I • 1A • Find the size of the current (I) 3A I 6A • 9A • Find the size of the current (I) 2A 6A I • 4A • Find the size of the voltage (V) 4V V • 4V • Find the size of the resistance 3Ω 6Ω • 2Ω • What happens to the total resistance if another resistor is added in parallel • decreases • Find the size of the current (I) 12 V I 6Ω • 2A • Find the size of the current (I) 12Ω I 3A 6Ω • 4.5A • Find the size of the total resistance 12Ω 10Ω 6Ω • 14Ω • Find the size of the voltage across R 4V 12Ω R 6Ω 5V • 1V • Find the size of the voltage across R R 5V 6Ω 7V • 2V • Find the size of the voltage across the 6Ω 12Ω 10Ω 3A 6Ω • 18 V • Find the size of the voltage across the 10Ω 12Ω 10Ω 3A 6Ω • 45 V 12 V 16 Ω 4V 8Ω • Calculate the current in each resistor • Calculate the unknown resistance • 0.5A • 1A • R = 4/1.5 • Now for a couple of longer ones………………… 12 V 100 Ω 50 Ω 200 Ω 300 Ω • Calculate the current in each resistor 12 V 100 Ω 50 Ω 200 Ω 300 Ω • SOLUTION • • • • Calculate Calculate Calculate Calculate the the the the resistance of the parallel bit total resistance. total current (same as I50) currents in the parallel bit 240 V 100 Ω 150 Ω 200 Ω • Calculate the power output of the 200Ω resistor with the switch closed • Explain what happens to the current in the 150 Ω resistor if the switch is opened 240 V 100 Ω 150 Ω 200 Ω • • • • • • Calculate the Calculate the Calculate the Calculate the Use P = I2R SOLUTION resistance of the parallel bit total resistance. total current (same as I150) currents in the parallel bit 240 V 100 Ω 150 Ω 200 Ω • Explain what happens to the current in the 150 Ω resistor if the switch is opened SOLUTION • A parallel resistor is removed. • Total resistance increases • Total current decreases (I= V/R battery voltage unchanged) • Current through 150 Ω resistor decreases
