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Published byBethany Lane Modified over 8 years ago
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Combinations of Resistors Series and Parallel Rules Ohm’s Law Current Divider Rules (CDR) Kirchhoff’s Laws
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Series Circuits Each resistor has the SAME Current (I) through it. Each resistor has a DIFFERENT Voltage (V) across it. Series Facts
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Resistors in series ADD up.
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Parallel Circuits Each resistor has the SAME Voltage (V) across it. Between nodes “a” and “b” there is one voltage. Each resistor has a DIFFERENT Current (I) through it. Parallel Facts
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Parallel resistors can be combined (reduced) by adding the reciprocals of resistor vales, then inverting your answer. Parallel Facts
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When a circuit “branches” the current divides just like when a river divides, water (current) will flow through each branch. Parallel resistors have different currents, if the resistor values are different. Parallel Facts
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Parallel resistors have the SAME voltage across them. But different currents. Current divides (splits). Parallel Facts
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Resistors RESIST the flow of current. The smaller the resistor, the larger the current. Since, R 1 I 2
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Ohm's law states that the current through a conductor between two points is directly proportional to the potential difference across the two points. Georg Simon Ohm (16 March 1789 – 6 July 1854) was a German physicist and mathematician. As a high school teacher, Ohm began his research with the new electrochemical cell, invented by Italian scientist Alessandro Volta. Using equipment of his own creation, Ohm found that there is a direct proportionality between the potential difference (voltage) applied across a conductor and the resultant electric current. This relationship is known as Ohm's law.
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Current divides at a node. I3I3 ITIT
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Equivalent resistance for the two parallel resistors.
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Find TOTAL resistance for the circuit. R EQ = 909 ITIT I TOTAL is the total current leaving the power supply.
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Use CDR to find I 3 I3I3 Current divides at a node. ITIT Question: What is the value of the current that goes through R1?
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Measuring current and voltage. Current is measured through a resistor Voltage is measured across a resistor Internal resistance in a power supply Ammeters measure current Voltmeters measure Voltage
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Everything has resistance. Resistance slows the flow of current. Internal resistance in a power supply Internal resistance & TERMINAL VOLTAGE. is EMF, it is the rated voltage. EMF means Electromotive Force. What we think we have. What we actually have. Internal resistance lowers the battery voltage.
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Internal resistance in a battery or power supply only occurs once current flows. Current only flows when a device (resistor) is connected to a power supply. Internal resistance in a power supply is EMF. This is the rated voltage. This is the voltage of the battery. 3V is the for this battery. Internal resistance & TERMINAL VOLTAGE.
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Everything has resistance. is EMF, it is a VOLTAGE. It is NOT a Force. Terminal Voltage is the actual voltage you get out of a battery once it is hooked to a circuit. V AB is the Terminal Voltage. B A Terminal Voltage is the EMF minus the “voltage drop” due to “r”.
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Gustav Robert Kirchhoff (12 March 1824 – 17 October 1887) was a German physicist who contributed to the fundamental understanding of electrical circuits, spectroscopy, and the emission of black-body radiation by heated objects. Kirchhoff developed TWO laws for solving circuit problems. The sum of the currents entering a node must equal the sum of the currents exiting a node. (Kirchoff's Law #1) The voltages around a closed path in a circuit must sum to zero. (Kirchoff's law #2)
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The current entering any junction is equal to the current leaving that junction. i 2 + i 3 = i 1 + i 4
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Circuit Equations Circuit Symbols variable resistor lamp
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