Resistance Resistance Loads Conductors Superconductors Ohm’s Law

Slides:

Advertisements

Similar presentations

Voltage and resistance in a circuit

Advertisements

Resistance 1.Resistance 2.Loads 3.Conductors 4.Superconductors 5.Ohm’s Law 6.Practice Questions 7.More Examples.

Factors Affecting Resistance

What Affects the Flow of Electricity? Some materials are good conductors. Electricity flows best through conductors. The base and the wires of a light.

Resistance. Definition Opposition to the flow of electrons When electrons pass through materials with high resistance, they collide with its molecules.

L 25 Electricity and Magnetism [3] Electric circuits what conducts electricity what doesn’t conduct electricity Current, voltage and resistance –Ohm’s.

L 25 Electricity and Magnetism [3] Electric circuits what conducts electricity what does and doesn’t conduct electricity Current, voltage and resistance.

Cells have positive and negative electrodes.

Electric Currents Physics Department, New York City College of Technology.

RESISTANCE Lesson 11. Resistance  The degree to which a substance opposes the flow of electric current through it.  All substances resist electron flow.

 Rate (how fast) at which charges pass a given point  Measured in Amperes or amps  Current (I)  Electrons moving in a wire make up current and provide.

RESISTANCE – OHM’S LAW Lesson 5. Resistance  The amount of current flow in a circuit, and the amount of energy transferred to any useful device, depends.

Electrical Resistance Gr 9 Science. 4 Electrical resistance = the property of a substance that hinders electric current and converts electrical energy.

Circuits & Electronics

energypushingDef : the energy or pushing force available to move electrons through a circuit Unit: volt (V) Symbol: V Measured using an instrument called.

Electrical Resistance Electrons like any other moving body follow the path of least resistance. Truemper 10/24/2011.

Electrical Resistance and Ohm’s Law Electric circuits are used to convert electrical energy into some other form of energy we need.

 Georg Simon Ohm   German  Physicist  HIGH SCHOOL TEACHER!!!!

Electric Current Electric current I is the rate of the flow of charge Q through a cross-section A in a unit of time t. One ampere A is charge flowing.

Chapter 4.3 Notes Resistance in Electricity. Charges can easily flow through conductors because they contain many free electrons. Charges can easily flow.

Electrical Potential (Voltage) Answers (Page 303)

Part II: Electrochemistry Electricity is generated by the movement of charged particles, in which opposite charges ___________ one another and like charges.

Current - rate at which charge passes a given point.

 Electricity is caused by the flow (or net movement) of Electrons  Electric Current – the rate that positive charges flow in a circuit › Actually a.

 a measure of how difficult it is for electric current to travel through a material  good conductors (metals) have low resistance, while insulators.

Measuring current Electric current: rate of flow of electrons past a specific point in a circuit Measured with: Ammeter Symbol: I Unit: ampere (A) 1 A.

Ohm’s Law Conductor A conductor is a material that current can pass through easily, like metals.

 The continuous flow of electrons is current.  Measured in amps (A).  Two types of current 1. Direct current (DC) – electrons flow in only one direction.

Ch Electricity II. Electric Current  Cell and Battery  Potential Difference  Current  Resistance  Ohm’s Law.

Electric Current. Ohm’s Law

11.4 Measuring Electrical Resistance (Pages )

PHYSICAL SCIENCE Electricity Part 2: Current Current Objectives Describe how batteries are sources of voltage. Explain how a potential difference.

 When electric charges flow they experience opposition or resistance which reduces the amount of energy they have  Greater resistance -> greater amount.

Measuring Electricity. Electric Potential – the electrical energy that an electron possesses. Electric current is a measure of the rate at which the electric.

L 26 Electricity and Magnetism [3] Electric circuits what conducts electricity what doesn’t conduct electricity Current voltage and resistance Ohm’s Law.

Electrical Resistance

L 25 Electricity and Magnetism [3]

ELECTRICAL RESISTANCE

RESISTANCE AND OHM’S LAW

Physics 2: Electricity Parts 1 & 2 KO

Ch Electricity II. Electric Current (p ) Circuit

Potential Difference, Current and Resistance

Notes 6 - Electricity.

Ch Electricity II. Electric Current Circuit Potential Difference

Electricity 2 objectives.

True or False? 1. When a battery no longer works, it is out of charge and must be re-charged before it can be used again. 2. A battery can be a source.

Resistance SNC1P.

Resistance in Circuits

Resistance Resistance Loads Conductors Superconductors Ohm’s Law

Conductance / Resistance / Factors

Resistors and Ohm’s Law

L 26 Electricity and Magnetism [3]

Electric Current and Electrical Energy

Resistance in Circuits

Electrical Circuits Varying Resistance

Circuits and Ohm’s Law.

L 26 Electricity and Magnetism [3]

Electricity II. Electric Current Circuit Potential Difference Current

Electric Current and Ohm’s Law

Electric Current Chapter 34.

Topic 3.3: Key Concepts Chemical Energy separates electrical charges in cells. Charges can flow through conductors, but not insulators. Moving electrical.

Potential Difference, Current and Resistance

Presentation transcript:

Resistance Resistance Loads Conductors Superconductors Ohm’s Law Practice Questions More Examples

Electrical Resistance

KEY TERM – RESISTANCE (R) When the electrons pass into a device (load) they bump into substances within the object (ions, other electrons, etc.) These bumps interfere with the electron flow because they get in the way Electrical resistance is a property of a substance that hinders electric current and converts electrical energy into other forms such as heat Can you think of an example?

Loads A resistor or any other device that transforms electrical energy into heat, motion, sound or light E.g. Watch, flashlight, light, computer, etc.

Resistance Continued Some substances resist the flow of electrons more than others Light bulb filaments are very good resistors and therefore slow down a lot of electrons. The energy from the electrons can then make the filaments glow making the light bulb light up Copper is a very poor resistor. Why does this property make copper an efficient electrical wire?

Conductors A substance that carries electrical energy without much resistance (little loss of electricity) Substances such as light bulbs are designed to be very poor conductors and therefore, a lot of energy from the electrons is lost near them making them glow

What affects the resistance of a wire? The type of material The length (a longer wire has a greater resistance) The diameter (a wire with a larger diameter has a lower resistance) The temperature (a hotter wire has a greater resistance)

Superconductors When electric charge can flow through a material with no resistance, the material is called a superconductor E.g. Magnet at CERN used to accelerate particles

Ohm’s Law Free electrons tend to move through conductors with some degree of friction, or opposition to motion. This opposition to motion is more properly called resistance. The symbol for resistance is Ω or ohm’s. Try It 

Ohm’s Law As resistance increases, current decreases Try It  The higher the resistance the more the electrons will slow down as they pass through. As the electrons slow down, their energy can be taken to do work (e.g. Light up, move a motor, etc.) The formula is: V = I X R Where V = voltage, I = current and R = resistance

Question What is the voltage drop across a 100 watt light bulb if the resistance is 150 Ω and the current is 0.8A? V = I X R

Question What is the voltage drop across a 100 watt light bulb if the resistance is 150 Ω and the current is 0.8A? V = I X R V = 0.8 A X 150 Ω V = 120 V Therefore the voltage drop is 120 V

Re-arranging formulas Original Formula: V= I x R