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DC Circuits Lab. Professor Ahmadi , Xin Xu ECE 1020. Outline. DC and AC circuit Omh’s Law Equivalent resistance in series and parallel cuicuits Exercises & Homework. Direct Current (DC) & Alternating Current (AC). DC: uni-directional movement of electric charges
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DC Circuits Lab Professor Ahmadi, Xin Xu ECE 1020
Outline • DC and AC circuit • Omh’s Law • Equivalent resistance in series and parallel cuicuits • Exercises & Homework
Direct Current (DC) & Alternating Current (AC) • DC: uni-directional movement of electric charges • AC: the direction of the movement of electric charges reverses periodically
V I Ohm’s Law • Quantifying the relationship between voltage and current • V voltage, volt (V) • I current, amp (A) • R resistance ohm (Ω) R
An Example 3V = Ix 1000 Ω Solve for I: I=3V / 1000 Ω = 3milliAmps I = ? Amps 3V • Determine the current using Ohm’s Law R = 1KΩ
V I Resisters in Series Apply Ohm’s Law on each resister R1 Just one path, currents are equal R2 Equivalent resistance Voltage drops can be added up R3
V I Principles for Resisters in Series • Current remains same in one circle • Voltage can be added up • Equivalent Resistance equal to sum of all resisters in series R1 R2 R3
Examples Online examples for resistances
V I Resisters in Parallel Apply Ohm’s Law on each resister R1 R2 R3 Voltages are same on each path Current is divided to 3 paths Equivalent resistance
V I Principles for Resisters in Parallel • Voltages remain same in parallel paths • Current can be added up R1 R2 R3
Examples Online examples for resistances
V V I I Combined Find equivalent resistance for parallel resistances R2 R3 R1 Solve the serial circuit Req R1
Examples Online examples for resistances
Exercises – Ohm’s Law • Given a circuit with a power source V = 9V,find the loop current if the resistance is 100 Ohm • Find the loop current by hand, and then build the circuit using the online interactive simulator • What is the current if the resistance is doubled • What is the current if the resistances is reduced by 50% • What is the current if the voltage is doubled? • What is the current if the voltage is reduced by 50%
Exercises - series • Given a circuit with a power source V = 12V,find the loop current if resistances are in series • Find the loop current by hand, and then build the circuit using the online interactive simulator • What is the loop current if all resistances are doubled • What is the loop current if all resistances are reduced by 50%
V=12V Exercises - parallel • Given a circuit with a power source V = 12V,find the loop current I if 2 resistances are connected in parallel • Find the current I by hand, and then build the circuit using the online interactive simulator • What is the current I if all resistances are doubled? • What is the current I if all resistances are reduced by 50% I = ? R1 R2
V Exercises - parallel • Given a circuit with a power source V = 12V,find the loop current if 3 resistances are connected in parallel • Find the current I by hand, and then build the circuit using the online interactive simulator • What is the current I if all resistances are doubled • What is the current I if all resistances are reduced by 50% I = ? R1 R2 R3
V Exercises – series/parallel • Given a circuit with a power source V = 5V,find the loop current I if R1, R2 are connected in parallel, and then connected to R3 in series I = ? • Find the current I by hand • Build the circuit using the online interactive simulator to verify your results R1 R2 R3
V Exercises – series/parallel • Given a circuit with a power source V = 5V,find the loop current if R1, R2, R3 are connected in parallel, and then connected to R4 in series I = ? • Find the loop current I by hand • Build the circuit using the online interactive simulator to verify your results R1 R2 R3 R4
V I = ? Exercises – series/parallel • Find the loop current I by hand, and then build the circuit using the online interactive simulator R4 R3 R1 R2
V Homework • Find the loop current I, and voltage and current for each resistor • Build the circuit using the online interactive simulator to verify your results I = ? R4 R3 R1 R2