Presentation is loading. Please wait.

Presentation is loading. Please wait.

There are 2 main circuit types: Series and Parallel.

Published byStewart Robinson Modified over 8 years ago

Similar presentations

Presentation on theme: "There are 2 main circuit types: Series and Parallel."— Presentation transcript:

1

2 There are 2 main circuit types: Series and Parallel.

3 --A circuit that has only 1 path for electrons to travel from a Power Source’s (-) to (+).

4 --Any break in the circuit’s conductors will stop the electrical current, since there is only 1 electrical path.

5 --Ex: old Christmas Lights— one light burns out, they all go out.

6 --A circuit that has multiple paths for electrons to travel from the Power Source’s (-) to the (+) pole.

7 -A break in a Parallel Circuit does not stop the electrical current because there is more than 1 way for electrons to reach the (+) end of the Power Source.

8 --Ex: New Christmas Lights continue to work, even if a light burns out since there are multiple ways for current to flow.

9 Moving electricity needs to work against friction in a wire—the more resistance in the wire, the more Power is needed to overcome the resistance from friction.

10 Ohm’s Law states that the speed of an electric current in a circuit is directly related to the Resistance and its Power/Voltage.

11 The Resistance in the Circuit is measured in Ohms

12 Using Ohm’s Law, you can calculate… A. How much resistance you need to control the voltage B. What speed (amps) the current will move C. How much voltage is needed to power a circuit.

13 The equation can also be used to find the initial Voltage IF the Resistance and Amps are known…

14 A. Needed Resistance (Ohms) = (Voltage / Amps) B. Needed Amps (A) = Voltage / Resistance C. Needed Voltage (V) = Amps x Resistance

15 The current in a hand-held video game moves at 0.5 A, with 120 V. What is the Resistance in this circuit?

16 Step # 1: list the knowns given from the problem…. Voltage = 120 V Amps/current = 0.5 A Resistance = ?

17 Step # 2: Use the proper equation to solve, and do the Math… Resistance = Voltage / Amps 120 / 0.5 = 24

18 Step # 3: add the proper unit to your answer…. So a Gameboy that runs on 120 Volts, 0.5 Amps needs 24 Ohms of resistance to work properly.

19 How much voltage would be needed if the circuits of a robot need at least 2 Amps of current speed to run through 100 Ohms of resistance?

20 Step #1: List the knowns… Voltage = ? Amps = 2 Resistance = 100 Ohms

21 Step #2: Use the proper equation and do the math… Voltage = Resistance x Amps 2A x 100 Ohms = 200

22 Step #3: Finish with the proper Unit A robot with 100 Ohms of resistance in the circuits, requiring 2 A of current needs 200 Volts of Electric power.

23 --Blueprint or technical drawing of a circuit. --Uses a standardized symbol system to show electrical plans of a circuit.

24 1. Conductor/Wire 2. Resistor 3. Bulb/lamp 4. Battery/DC source 5. Switch

25 When too much power enters a household circuit (Power Surge) the circuit has circuit breakers and fuses that protect appliances/wires from fires.

26 Electrical Heat is caused by the Friction of electricity’s moving electrons. High Amp electrical current can cause wires to melt and catch fire from the electrons’ Friction force being converted into heat energy.

27 1. Fuses Circuit conductor made from a thin metal strip with a low melting point.

28 Too much Electrical current/Friction will melt the fuse and break the circuit, stopping the electrical current.

29 2. Circuit Breakers Circuit conductor made from 2 different metals pressed together into a strip or use electromagnets.

30 High Electrical Current will cause the 2-metal strip to curl back, breaking the circuit, and switching off the power.

31 Electromagnetic breakers work when high current makes the magnet inside stronger and stronger until the magnet can pull the metal switch open.

32 Too much electrical energy can be transferred away from devices and people to protect them. This is called Grounding

33 Grounding a circuit gives electric current another path that carries the electricity to where it wants to be—the ground.

34 Lightning rods are placed on tall buildings to protect them from lighting strikes. An attached wire carries the current safely into the ground.

35 Some electrical plugs have a 3 rd prong that grounds them, and will carry electric current away in case of accidents.

36 Lastly, metal Faraday Cages can be used to protect sensitive devices from static electricity, and other current by absorbing, and sending current to the ground.

Download ppt "There are 2 main circuit types: Series and Parallel."

Similar presentations

Electricity Chapter 13.

Electricity Chapter 13.
Chapter 20 Electricity.

Chapter 20 Electricity.
20.3 Electric Circuits Ms. Kammerer.

20.3 Electric Circuits Ms. Kammerer.
Electrical Current & Circuits

Electrical Current & Circuits
Electricity. Static Electricity  Static electricity is the buildup of excess electric charge on an object.

Electricity. Static Electricity  Static electricity is the buildup of excess electric charge on an object.
Electricity. Let’s Review… Atoms have 3 subatomic particles Protons = positive Electrons = negative Neutrons = neutral Neutral Atom “Normal” state # Protons.

Electricity. Let’s Review… Atoms have 3 subatomic particles Protons = positive Electrons = negative Neutrons = neutral Neutral Atom “Normal” state # Protons.
Chapter 20 Electricity. Section 1 Electric charge and static electricity.

Chapter 20 Electricity. Section 1 Electric charge and static electricity.
Electricity. Charges Atoms contain particles called protons, neutrons, and electrons. Protons (+) Electrons (-) Neutrons (0)

Electricity. Charges Atoms contain particles called protons, neutrons, and electrons. Protons (+) Electrons (-) Neutrons (0)
Integrated Science I. Electrical conductors – a material that allows electrons to flow easily through it Ex) gold, silver, copper, etc. Electrical insulators.

Integrated Science I. Electrical conductors – a material that allows electrons to flow easily through it Ex) gold, silver, copper, etc. Electrical insulators.
Electric Circuits.

Electric Circuits.
SERIES AND PARALLEL CIRCUITS. Circuits  Provides a path for electricity to travel  Similar to water pipes in your house  Because of the voltage of.

SERIES AND PARALLEL CIRCUITS. Circuits  Provides a path for electricity to travel  Similar to water pipes in your house  Because of the voltage of.
Ch 16.2 & 16.3 Current and Circuits Electrical Potential Energy – The amount of energy stored between two charges Voltage – Is the “push” behind making.

Ch 16.2 & 16.3 Current and Circuits Electrical Potential Energy – The amount of energy stored between two charges Voltage – Is the “push” behind making.
Circuits 6-1.

Circuits 6-1.
Ch. 21 - Electricity III. Electrical Circuits  Circuit components  Series circuits  Parallel circuits  Household circuits.

Ch Electricity III. Electrical Circuits  Circuit components  Series circuits  Parallel circuits  Household circuits.
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.
Electricity.

Electricity.
CHAPTER 7 ELECTRICITY BINGO. A circuit in which current has more than one path is called a _________________ circuit.

CHAPTER 7 ELECTRICITY BINGO. A circuit in which current has more than one path is called a _________________ circuit.
Chapter 17.3 – Circuits electric circuit – a set of electrical components connected such that they provide one or more complete paths for the movement.

Chapter 17.3 – Circuits electric circuit – a set of electrical components connected such that they provide one or more complete paths for the movement.
ELECTRICITY.

ELECTRICITY.
Electricity and Magnetism

Electricity and Magnetism

Similar presentations

Ads by Google