Presentation is loading. Please wait.

Presentation is loading. Please wait.

 Solving a circuit consists of finding unknown currents, the current direction, and the voltages in a circuit.  A multiloop circuit has more than one.

Published byTrevor Lewis Modified over 8 years ago

Similar presentations

Presentation on theme: " Solving a circuit consists of finding unknown currents, the current direction, and the voltages in a circuit.  A multiloop circuit has more than one."— Presentation transcript:

1

2  Solving a circuit consists of finding unknown currents, the current direction, and the voltages in a circuit.  A multiloop circuit has more than one loop, and sometimes more than one battery. Topic 5.2 Extended B – Multi-loop circuits  A junction (or node) is a point in a circuit where three or more connecting wires are joined together.  A branch is a path connecting two junctions. 25  100  A B + - + - 50  15 V 10 V FYI: Each branch has its own current. I1I1 I2I2 I3I3 Snoop Dog Kirchhoff

3 Topic 5.2 Extended B – Multi-loop circuits  Start by assigning arbitrary directions to your branch currents: 25  100  A B + - + - 50  15 V 10 V FYI: This means that the sum of the currents going into a junction equals the sum of the currents leaving it. I1I1 I2I2 I3I3 I1I1 I1I1 I1I1 I1I1 I1I1 I2I2 I3I3 I3I3 I3I3 I2I2  Kirchhoff's first rule (the junction theorem) states that the algebraic sum of the currents at a junction is zero. FYI: The junction theorem is just a statement of the conservation of charge.  I = 0 Kirchhoff's Junction Theorem FYI: The convention is to assign a (+) to currents entering a junction, and a (-) to currents leaving the junction:  I = 0 I 3 - I 1 - I 2 = 0 (junction A) I 1 + I 2 - I 3 = 0 (junction B) FYI: At this point we have but 1 equation with three unknowns.

4 Topic 5.2 Extended B – Multi-loop circuits  Now we look at the voltages in any loop and invoke the second of Kirchhoff's rules: 25  100  A B + - + - 50  15 V 10 V I1I1 I1I1 I1I1 I1I1 I1I1 I2I2 I3I3 I3I3 I3I3 I2I2  Kirchhoff's second rule (the loop theorem) states that the algebraic sum of the voltage differences in any closed loop is zero.  V = 0 Kirchhoff's Loop Theorem FYI: The loop theorem is just a statement of the conservation of energy. FYI: A few conventions are used to determine whether the voltage difference is positive or negative. Here they are:  Traveling through a resistor in the direction of the current is a voltage DROP (-).  Traveling through a resistor opposite to the direction of the current is a voltage GAIN (+).  Traveling through a battery from (+) to (-) is a voltage DROP (-).  Traveling through a battery from (-) to (+) is a voltage GAIN (+).

5  For loop 1: Topic 5.2 Extended B – Multi-loop circuits 25  100  A B + - + - 50  15 V 10 V I1I1 I1I1 I1I1 I1I1 I1I1 I2I2 I3I3 I3I3 I3I3 I2I2 15 - 50I 1 + 10 + 100I 2 - 50I 1 = 0 1 2 25 - 100I 1 + 100I 2 = 0 1 = 4I 1 - 4I 2  For loop 2: -10 - 25I 3 - 100I 2 = 0 -2 = 5I 3 + 20I 2 FYI: Counting the junction theorem equation, we now have three equations with three unknowns. I 3 - I 1 - I 2 = 0 (junction A)

6 Topic 5.2 Extended B – Multi-loop circuits 1 = 4I 1 - 4I 2 -2 = 5I 3 + 20I 2 I 3 - I 1 - I 2 = 0 I 3 = I 1 + I 2 -2 = 5(I 1 + I 2 ) + 20I 2 -2 = 5I 1 + 25I 2 5 = 20I 1 - 20I 2 8 = -20I 1 + -100I 2 13 = -120I 2 I 2 = -13/120 A FYI: The (-) in the I 2 means that we picked the wrong direction. 5 = 20I 1 - 20(-13/120 ) 5 = 20I 1 + 13/6 30 = 120I 1 + 13 17 = 120I 1 I 1 = 17/120 A FYI: The (+) in the I 1 means that we picked the right direction. I 3 = 17/120 + -13/120 I 3 = 4/120 I 3 = 4/120 A FYI: If you need to find any of the resistor voltages just use Ohm’s law: V = IR.

Download ppt " Solving a circuit consists of finding unknown currents, the current direction, and the voltages in a circuit.  A multiloop circuit has more than one."

Similar presentations

Circuits.

Circuits.
Unit 8 Combination Circuits

Unit 8 Combination Circuits
Light bulb When switch is closed, bulbs are … Brighter The same Dimmer than the bulb above (?)

Light bulb When switch is closed, bulbs are … Brighter The same Dimmer than the bulb above (?)
Unit 3, Day 7-8 Kirchhoff’s Junction Rules Calculation of Circuit Currents using Kirchhoff’s Rules Circuit Analysis Approach.

Unit 3, Day 7-8 Kirchhoff’s Junction Rules Calculation of Circuit Currents using Kirchhoff’s Rules Circuit Analysis Approach.
Kirchhoff’s laws. Kirchhoff’s laws: current law: voltage law: Equations.

Kirchhoff’s laws. Kirchhoff’s laws: current law: voltage law: Equations.
Fundamentals of Circuits: Direct Current (DC)

Fundamentals of Circuits: Direct Current (DC)
Direct Current Circuits

Direct Current Circuits
DC circuits Physics Department, New York City College of Technology.

DC circuits Physics Department, New York City College of Technology.
Parallel Circuit. Same Voltage  Two circuit elements joined together at both ends are in parallel. Multi-wire connectionMulti-wire connection  The potential.

Parallel Circuit. Same Voltage  Two circuit elements joined together at both ends are in parallel. Multi-wire connectionMulti-wire connection  The potential.
7/2/20151 T-Norah Ali Al-moneef king saud university.

7/2/20151 T-Norah Ali Al-moneef king saud university.
Chapter 26 DC Circuits. I Junction rule: The sum of currents entering a junction equals the sum of the currents leaving it. 26-3 Kirchhoff’s Rules.

Chapter 26 DC Circuits. I Junction rule: The sum of currents entering a junction equals the sum of the currents leaving it Kirchhoff’s Rules.
Lecture 2 Basic Circuit Laws

Lecture 2 Basic Circuit Laws
Y12 Review… Simple circuit…

Y12 Review… Simple circuit…
Circuit Analysis Chapter 18 AP Physics: M. Blachly.

Circuit Analysis Chapter 18 AP Physics: M. Blachly.
3-12-20141FCI. Direct Current Circuits: 3-1 EMF 3-2 Resistance in series and parallel. 3-3 Rc circuit 3-4 Electrical instruments 3-12-20142FCI.

FCI. Direct Current Circuits: 3-1 EMF 3-2 Resistance in series and parallel. 3-3 Rc circuit 3-4 Electrical instruments FCI.
Kirchhoff’s Laws Current Law: The total current entering a junction in a circuit equals the total current leaving. I 1 = 2A I 2 = ? I 3 = 5A.

Kirchhoff’s Laws Current Law: The total current entering a junction in a circuit equals the total current leaving. I 1 = 2A I 2 = ? I 3 = 5A.
a b  R C I I R  R I I r V Yesterday Ohm’s Law V=IR Ohm’s law isn’t a true law but a good approximation for typical electrical circuit materials Resistivity.

a b  R C I I R  R I I r V Yesterday Ohm’s Law V=IR Ohm’s law isn’t a true law but a good approximation for typical electrical circuit materials Resistivity.
Lecture 3 Review: Ohm’s Law, Power, Power Conservation Kirchoff’s Current Law Kirchoff’s Voltage Law Related educational modules: –Section 1.4.

Lecture 3 Review: Ohm’s Law, Power, Power Conservation Kirchoff’s Current Law Kirchoff’s Voltage Law Related educational modules: –Section 1.4.
ENGR. VIKRAM KUMAR B.E (ELECTRONICS) M.E (ELECTRONICS SYSTEM ENGG:) MUET JAMSHORO 1 KIRCHHOFF’S VOLTAGE LAW.

ENGR. VIKRAM KUMAR B.E (ELECTRONICS) M.E (ELECTRONICS SYSTEM ENGG:) MUET JAMSHORO 1 KIRCHHOFF’S VOLTAGE LAW.
DC CIRCUIT PREPARED BY: 130400116023- Patel Nidhi Harkishnbhai 130400116036- Sharma Surabhi Chandra Deo BE First Semester IT ACTIVE LEARNING ASSIGNMENTS.

DC CIRCUIT PREPARED BY: Patel Nidhi Harkishnbhai Sharma Surabhi Chandra Deo BE First Semester IT ACTIVE LEARNING ASSIGNMENTS.

Similar presentations

Ads by Google