Presentation is loading. Please wait.

Presentation is loading. Please wait.

Circuits. V = IR Voltage is electric potential. It is measured in volts (V). I is current. This is the flow rate of electrical charge. It is measured.

Published byGrace Davidson Modified over 8 years ago

Similar presentations

Presentation on theme: "Circuits. V = IR Voltage is electric potential. It is measured in volts (V). I is current. This is the flow rate of electrical charge. It is measured."— Presentation transcript:

1 Circuits

2 V = IR Voltage is electric potential. It is measured in volts (V). I is current. This is the flow rate of electrical charge. It is measured in Amps (A). R is resistance to electric current. It is measured in Ohms (Ω).

3 Simple Example Solve for the current through the resistor. V = IR 12V = I (4 Ω) I = 3A

4 Resistors in Series Current is the same through all resistors. If it goes through one resistor, it has to go through all of them. Total resistance is the sum of all resistances. Part of the voltage drops across each resistor. Voltage drop across a resistor is proportional to the resistance.

5 In the circuit to the right, solve for the current through and voltage drop across each resistor. R=R1 + R2 = 4Ω + 8Ω = 12Ω V=IR 12V=I(12Ω) I = 1A

6 Current through this circuit is 1A. In the first resistor, V=IR V=(1A)(4Ω) V=4V In the second resistor, V=IR V=(1A)(8Ω) V=8V

7 Resistors in Parallel The voltage drop is the same across each resistor in parallel. 1/R = 1/(R1) + 1/(R2) The current can go through any of them with the same voltage drop. Current is different in each resistor following Ohm’s Law.

8 Find the voltage drop across and current through each resistor. Solve for the equivalent resistance. For both resistors, V=12V. For the 4Ω resistor, V=IR 12V=I(4Ω) I=3A

9 For the 6Ω resistor, V=IR 12V=I(6Ω) I=2A Equivalent resistance: 1/R = 1/R1 + 1/R2 1/R = ¼ + 1/6 1/R = 10/24 R = 2.4Ω Check: Voltage = total current * equivalent resistance 12V = (2A + 3A) * (2.4Ω) 12V= (5*2.4)V 12V=12V

10 Circuit Reduction 1) Start by adding any resistors in series with each other. 2) Find the equivalent resistance of any resistors in parallel with each other. 3) Repeat as necessary until you have found the equivalent resistance for the entire circuit. Tip: Start as far from the voltage source as possible and work toward the voltage source. Tip 2: Redraw the circuit at the beginning to make it easier to work with.

11

12

13

14 Power Power dissipate by a resistor is given by the equation P=IV. You can substitute IR in place of V and get P=I 2 R. Another equivalent expression is P=V 2 /R

Download ppt "Circuits. V = IR Voltage is electric potential. It is measured in volts (V). I is current. This is the flow rate of electrical charge. It is measured."

Similar presentations

Circuits.

Circuits.
Series and Parallel Circuits

Series and Parallel Circuits
Unit 8 Combination Circuits

Unit 8 Combination Circuits
Unit 8 Combination Circuits

Unit 8 Combination Circuits
Unit 7 Parallel Circuits

Unit 7 Parallel Circuits
Electricity Technical Stuff. Electric Field An uneven distribution of charge produces an “ Electric Field” We can deduce this by an electric potential.

Electricity Technical Stuff. Electric Field An uneven distribution of charge produces an “ Electric Field” We can deduce this by an electric potential.
Reading Quiz A light bulb is connected to a battery so that current flows through the bulb, which gives off light. Choose the correct statement: The amount.

Reading Quiz A light bulb is connected to a battery so that current flows through the bulb, which gives off light. Choose the correct statement: The amount.
Physics Mrs. Coyle.  Kirchhoff’s Rules  Series Circuits  Equivalent Resistance  Voltage Drop Across Resistors  Brightness of Bulbs in a Series Circuit.

Physics Mrs. Coyle.  Kirchhoff’s Rules  Series Circuits  Equivalent Resistance  Voltage Drop Across Resistors  Brightness of Bulbs in a Series Circuit.
Series Circuits ENTC 210: Circuit Analysis I Rohit Singhal Lecturer Texas A&M University.

Series Circuits ENTC 210: Circuit Analysis I Rohit Singhal Lecturer Texas A&M University.
ECE 201 Circuit Theory I1 Resistors in Parallel Resistors connected at a single node pair Voltage across each resistor is the same.

ECE 201 Circuit Theory I1 Resistors in Parallel Resistors connected at a single node pair Voltage across each resistor is the same.
Circuits Series and Parallel. Series Circuits Example: A 6.00 Ω resistor and a 3.00 Ω resistor are connected in series with a 12.0 V battery. Determine.

Circuits Series and Parallel. Series Circuits Example: A 6.00 Ω resistor and a 3.00 Ω resistor are connected in series with a 12.0 V battery. Determine.
If current is disrupted through one element (e.g. the light goes out) If current is disrupted through one element (e.g. the light goes out) then they.

If current is disrupted through one element (e.g. the light goes out) If current is disrupted through one element (e.g. the light goes out) then they.
Electric Circuits Electricity for Refrigeration, Heating and Air Conditioning 7th Edition Chapter 3 Electric Circuits.

Electric Circuits Electricity for Refrigeration, Heating and Air Conditioning 7th Edition Chapter 3 Electric Circuits.
Lecture 2 Basic Circuit Laws

Lecture 2 Basic Circuit Laws
Ohm’s Law V = IR.

Ohm’s Law V = IR.
Ohm’s Law.

Ohm’s Law.
Current Electricity, Ohm’s Law & Circuits. Current (I) The rate of flow of charges through a conductor Needs a complete closed conducting path to flow.

Current Electricity, Ohm’s Law & Circuits. Current (I) The rate of flow of charges through a conductor Needs a complete closed conducting path to flow.
Basic Electronics II Series and Parallel Circuits.

Basic Electronics II Series and Parallel Circuits.
Series Circuits AKA Voltage Dividers Cardinal Rules for Series Circuits Potential difference is divided proportionately amongst each of the resistors placed.

Series Circuits AKA Voltage Dividers Cardinal Rules for Series Circuits Potential difference is divided proportionately amongst each of the resistors placed.
Series & Parallel Circuits

Series & Parallel Circuits

Similar presentations

Ads by Google