Electrical Potential (Voltage) Answers (Page 303)

Slides:

Advertisements

Similar presentations

Advertisements

+ V (Volt) = W (work done, J) Q (charge, C)

Electric currents Chapter 18. Electric Battery Made of two or more plates or rods called electrodes. – Electrodes are made of dissimilar metals Electrodes.

Cells have positive and negative electrodes.

OHM’s Law SNC 1D0 Monday November 29 Electrical Resistance

Quarter 3 Test 2 Review. 1 Typically, household appliances operate at 120 volts. What is the current flowing in the circuit of a microwave when the resistance.

What is Electricity? Electricity is the flow of moving electrons. When the electrons flow it is called an electrical current.

.  Comparing shocks from static electricity and electric currents is like comparing apples and oranges, they are similar but quite different at the.

Chapter 13 Electricity!. Quick review: Conductors Insulators Like charges ___________ and unlike charges _____________. Repel Attract.

Ohm’s law describes the relationship of current, voltage, and resistance.

Ohm’s Law The most important fundamental law in electronics is Ohm’s law, which relates voltage, current, and resistance. Georg Simon Ohm ( ) studied.

Electrical Resistance and Ohm’s Law. The Electric Current  Electric current is a measure of the rate at which electric charges move past a given point.

Current Electricity.

Circuits & Electronics

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.

The “Live Action” Physics Review Game Topic: Circuits.

Electric Current & Electricity Calculations

Do Now What work is required to move 7 coulombs of charge through a potential difference of 3 volts?

10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt.

Electric Current Electrical current is the flow of electrons. Unlike static electricity, charges are in motion. Two types of Current I. Direct current.

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!!!!

Ohm’s Law & Electrical Power. Resistance - the tendency for a material to oppose the flow of electronsResistance - the tendency for a material to oppose.

Ch. 34 Electric Current.

Electricity. What is electricity? Electric current – flow of electrons through a _______ Current (I) is measured by how many __________pass a given point.

4.2.3B Electrical Power What About Watts?. Power Law Moving electrons (current) requires ENERGY How much energy gets used depends on: Strength of push.

Electric Current and Ohms Law. Electric Current The continuous flow of electric charge –The two types of current are direct current (DC) and alternating.

Electrical circuits. Intensity (I): Number of charges that flow past a given point every second. Measured in Amperes (A). Wires that carry the electrical.

Electrical Resistance Electrical resistance is a measure of how difficult it is for electricity (electrons) to flow through a material. The units of resistance.

Electric Circuits. Potential Electric Potential is just like gravitational potential It depends on –The distance from the source –The amount of charge.

Electric Circuits. Electric Circuit Is a closed path for the flow of electrons. Consists of: 1.Source of electricity 2.Wires to conduct the flow of.

Electric Current. In this session we will, Review how we measure electric charge Discuss voltage and electric current Look at electric current in batteries.

Electric Current, Resistance and Ohm’s Law

10.3 Electric Potential. Electric Potential Electric potential refers to the amount of energy that electrons possess in a circuit.

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

Bellwork (2/18)  [ none this week – Happy Rodeo Break ]

Circuit Electricity May 30, 2012 Chapter 22. Terms  Current: Flow of charge  Symbolized by “ I ”  Units = Coulombs/second = Amperes (A)  Circuit:

 Electrical circuit: a closed loop where charged particles flow  Electrical current: a flow of charged particles (e - )  Direct current (DC): a flow.

The Control of Electricity in Circuits

Ohm’s Law PSSA Requirement Unit 9 Honors Physics.

Electricity and Circuit. Types of Electricity Static Electricity – no motion of free charges Current Electricity – motion of free charges – Direct Current.

Electrostatics (Static Electricity) was a single discharge. Current is a steady flow of electric charge.

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

Power in Electrical Systems Power in Electrical Systems.

Current Electricity.

WARM UP Draw a picture of a SERIES Circuit. Show a battery, a switch, and a light bulb in your drawing. Draw a picture of a PARALLEL Circuit. Show a battery,

Electricity Cont… Turk.

Recall that when two conducting objects at different potentials are connected by a conducting wire, charge flows from the object at a higher potential.

Measurements in Electric Circuits

Voltage, Current, and Resistance

ELECTRICAL RESISTANCE

Electric Current Lesson 9.

Check your Understanding

Ch Electricity II. Electric Current (p ) Circuit

Integrated Science C Mrs. Brostrom

Ch Electricity II. Electric Current Circuit Potential Difference

Electricity 2 objectives.

Measurements in Electric Circuits

Resistance in Circuits

ELECTRICAL CIRCUIT BOARDS

Ch Electricity II. Electric Current (p ) Circuit

Modified by Mr. Wanninkhof

Resistors and Ohm’s Law Experiment No

Science 9 Electricity Review.

Electricity II. Electric Current Circuit Potential Difference Current

Ohm’s Law & Circuits Chapter 7.2 & 7.3.

Voltage Difference The difference in electrical potential between two places. Unit of measure = V (volts) Voltage causes current to flow through an electric.

Announcement Ohm’s law video is due at midnight Makeup lab today

Electric Resistance describes how an electrical conductor (wire) opposes the flow of a current (flow of electrons) to overcome this opposition a voltage.

Presentation transcript:

Electrical Potential (Voltage) Answers (Page 303) a) Why is it necessary for the electrons to move continuously around the circuit? b) From which terminal do the electric charges flow into the circuit? Explain.

2. a) Define the term “electrical potential” 2. a) Define the term “electrical potential”? b) State the SI unit and the name the symbol used for electrical potential 3. Why is it possible to measure an electrical potential across the terminals of a dry cell, even if the electrons are not flowing into the circuit?

Measuring Electricity

Electric Potential – the electrical energy that an electron possesses. Electric current is a measure of the rate at which the electric charges move past a given point in a circuit. Ampere (A) is the S.I. unit used to measure electric current. Ex: In a 100 w light bulb only 1A of current flows through it.

Voltage – electric potential Volts (V) – the S.I. unit used to measure electric potential. Voltage Drop – a measure of the energy each electron gives up as it moves through a circuit. (Commonly used for potential difference.)

Electrical Resistance

Resistance – is the ability to hold back the flow of electrons in a conductor. The molecules found in every type of conductor resists the flow of electrons to some extent. Resistors – are electrical devices that are used in circuits that are designed to resist the flow of electricity. The symbol for electrical resistance is “R” and the S.I. unit is the Ohm (). Ex: the resistance of a 100 W light bulb is about 144 .

When electrons flow through a conductor the electrical resistance causes a loss of electric potential (voltage). There is a “difference” in the amount of electric potential after the electrons have flowed through the conductor. This difference is referred to as the potential difference.

Ohm’s Law

Ohm’s Law: The potential difference between two points on a conductor is proportional (directly related) to the electric current flowing through the conductor.

V = I x R Potential difference (V) is measured in volts (V) Potential = Electric Current x Electrical Resistance Difference (Voltage Drop) V = I x R Potential difference (V) is measured in volts (V) Electric Current (I) is measured in ampere (A) Resistance (R) is measured in ohms ()

Ohm’s Law Questions Sample Problems: What is the voltage drop across the tungsten filament in a 100 watt light bulb? The resistance of the filament is 144 ohms and a current of 0.833 amperes is flowing through it.

I = 0.833 A R = 144 OHMS V = ? V V = I X R V = (0.833A)(144Ω) V = 120 V The voltage drop across a 100 watt light bulb is 120 V.

2. An electric toaster is connected to a 120 V outlet in the kitchen 2. An electric toaster is connected to a 120 V outlet in the kitchen. If the heating element in the toaster has a resistance of 14 Ohms. Calculate the current flowing through it.

V = 120 V I = ? A R = 14 OHMS V = I X R 120 V = I X (14 Ω) 120V = I 14 Ω I = 8.6 A The current flowing through the toaster is 8.6 A.