Presentation is loading. Please wait.

Presentation is loading. Please wait.

8.3 – RESISTANCE AND OHMS LAW. SECTION 8.3 – RESISTANCE AND OHM’S LAW Resistance – is the property of any material that slows down the flow of electrons.

Published byAusten Gregory Modified over 8 years ago

Similar presentations

Presentation on theme: "8.3 – RESISTANCE AND OHMS LAW. SECTION 8.3 – RESISTANCE AND OHM’S LAW Resistance – is the property of any material that slows down the flow of electrons."— Presentation transcript:

1 8.3 – RESISTANCE AND OHMS LAW

2 SECTION 8.3 – RESISTANCE AND OHM’S LAW Resistance – is the property of any material that slows down the flow of electrons (i.e. a load) and converts electrical energy into other forms of energy (i.e. light or heat). Wires that connect the battery to a load have very little resistance; therefore, electrons can travel through the wire with almost no loss of electrical energy.

3 RESISTANCE AND CURRENT Voltage is directly proportional to current; therefore, as the voltage increases, so does the current (I). If an electric circuit has a large resistance, less current will flow if a battery with the same voltage is connected to a lower resistance circuit.

4 OHM’S LAW R = V/I R = resistance (ohm - Ω) V = voltage (volts – V) I = current (amperes – A) V RI

5 CONVERSIONS Divide by 1000 to convert mA (m = milli)  A Times by 1000 to convert A  mA Example: 5 mA  ? A 5 mA/1000 = 0.005 A 0.095 A  ? mA 0.095 A x 1000 = 95 mA

6 CONVERSIONS Divide by 1000 to convert Ω  k Ω (k = kilo) Times by 1000 to convert k Ω  Ω Example: 6000 Ω  ? k Ω 6000 Ω/1000 = 6 k Ω 20 k Ω  ? Ω 20 k Ω x 1000  20,000 Ω

7 CONVERSIONS Divide by 1,000,000 to convert V to MV (mega) Times by 1,000,000 to convert MV to V Example: 25 MV  ? V 25 MV x 1,000,000 = 25, 000,000 4,000,000 V  MV 4,000,000 V/1,000,000 = 4 MV

8 SAMPLE CALCULATIONS USING THE OHM’S FORMULA 1.The current through a load in a circuit is 1.5 A. If the potential difference across the load is 12 V, what is the resistance of the load? R = V/I R = 12 V/1.5A R = 8.0 Ω The resistance of the load is 8.0 Ω.

9 SAMPLE CALCULATIONS USING THE OHM’S FORMULA 2.The resistance of a car headlight is 15 Ω. If there is a current of 0.80 A through the headlight, what is the voltage across the headlight? V = IR V = (0.80 A)(15 Ω ) V = 12 V The voltage across the headlight is 12 V.

10 SAMPLE CALCULATIONS USING THE OHM’S FORMULA 3.A 60 V potential difference is measured across a load that has a resistance of 15 Ω. What is the current through this load? I = V/R I = 60 V/ 15 Ω I = 4.0 A The current through this load is 4.0 A.

11 PRACTICE PROBLEMS Pg. 293 #1-3

12 CONVERTING PREFIXES Prefixes are used to indicate the magnitude of a value Mili (m) represents one-thousandth (eg. 25mA = 25/1000 = 0.025A) Kilo (k) represents one thousand (eg. 5.0KΩ = 5000 Ω Mega (M) represents one million (example: 12MV = 12 000 000V) Practice Problems Pg. 294 #1-3 Pg. 295 – Calculating Resistance

13 THE RESISTOR Resistor – an electrical component that has a specific resistance. Used to control the current or voltage in a circuit. When charge encounters resistance, it is transformed into other forms of energy (i.e. heat).

14 RESISTOR COLOUR CODE TABLE 8.2 PAGE 297 (Accuracy)

15 RESISTOR COLOUR CODE Example: Red, blue, brown, gold 260 Ω +/- 5% Example: Green, orange, black, silver 53 Ω +/- 10% Circuit Diagrams Pg. 296 Circuit Diagrams

16 RESISTORS If a resistor has a fourth band, it represents the percentage of accuracy between the indicated value and actual value Gold 5% Silver 10% No Color 20%

Download ppt "8.3 – RESISTANCE AND OHMS LAW. SECTION 8.3 – RESISTANCE AND OHM’S LAW Resistance – is the property of any material that slows down the flow of electrons."

Similar presentations

Ohm’s Law.

Ohm’s Law.
Cells have positive and negative electrodes.

Cells have positive and negative electrodes.
Lab 3: Series & Parallel Resistors Only 9 more labs to go!! Potential V R, resistor Current, I water flow The energy can be extracted from the water if.

Lab 3: Series & Parallel Resistors Only 9 more labs to go!! Potential V R, resistor Current, I water flow The energy can be extracted from the water if.
CHAPTER 8: Ohm’s law describes the Relationship of current, voltage, and resistance. UNIT 3: Electricity.

CHAPTER 8: Ohm’s law describes the Relationship of current, voltage, and resistance. UNIT 3: Electricity.
Resistance and Ohm’s Law. Current Electricity and Static Electricity Current ElectricityStatic Electricity amount of charge moving through a circuit build.

Resistance and Ohm’s Law. Current Electricity and Static Electricity Current ElectricityStatic Electricity amount of charge moving through a circuit build.
Science 9 : Introduction to Current Electricity

Science 9 : Introduction to Current Electricity
Electricity Unit 1 Physics.

Electricity Unit 1 Physics.
ETEC 4824 Analogue Electronics Resistors and Ohms Law.

ETEC 4824 Analogue Electronics Resistors and Ohms Law.
Series, Parallel, and Series- Parallel Circuits

Series, Parallel, and Series- Parallel Circuits
Current, Voltage and Resistance Electricity. Current Electricity What do turning on a light, turning on a radio, and turning on your television have in.

Current, Voltage and Resistance Electricity. Current Electricity What do turning on a light, turning on a radio, and turning on your television have in.
Electric Circuits A circuit is a path where a current can flow If the flow is to be continuous, the can be no gaps in the path Introduce gaps in the form.

Electric Circuits A circuit is a path where a current can flow If the flow is to be continuous, the can be no gaps in the path Introduce gaps in the form.
© JOHN PARKINSON 1 © JOHN PARKINSON 2 © JOHN PARKINSON 3 E L E C T R I C C U R R E N T Electrons Positive Ions Negative Ions Positive Holes.

© JOHN PARKINSON 1 © JOHN PARKINSON 2 © JOHN PARKINSON 3 E L E C T R I C C U R R E N T Electrons Positive Ions Negative Ions Positive Holes.
Chapter 8 Ohm’s law describes the relationship of

Chapter 8 Ohm’s law describes the relationship of
Do Now What work is required to move 7 coulombs of charge through a potential difference of 3 volts?

Do Now What work is required to move 7 coulombs of charge through a potential difference of 3 volts?
Resistance. Challenge Try and increase the temperature of 200 ml of tap water as much as possible in five minutes using the equipment provided.

Resistance. Challenge Try and increase the temperature of 200 ml of tap water as much as possible in five minutes using the equipment provided.
 Georg Simon Ohm  1789-1854  German  Physicist  HIGH SCHOOL TEACHER!!!!

 Georg Simon Ohm   German  Physicist  HIGH SCHOOL TEACHER!!!!
Ohm’s Law & Electrical Power. Resistance - the tendency for a material to oppose the flow of electronsResistance - the tendency for a material to oppose.

Ohm’s Law & Electrical Power. Resistance - the tendency for a material to oppose the flow of electronsResistance - the tendency for a material to oppose.
Electrical Potential (Voltage) Answers (Page 303)

Electrical Potential (Voltage) Answers (Page 303)
Electron and Electricity Electricity is the movement of electron thought a material. Electron flows along like a water current in a stream, so we call.

Electron and Electricity Electricity is the movement of electron thought a material. Electron flows along like a water current in a stream, so we call.
Current, Voltage and Resistance Electricity – involves the movement of electrons from one atom to the next in a conducting wire.

Current, Voltage and Resistance Electricity – involves the movement of electrons from one atom to the next in a conducting wire.

Similar presentations

Ads by Google