Electricity Part 2: Electric Current. Definition of current Electric current is the amount of charge moving through a surface in a time interval I = current.

Slides:

Advertisements

Similar presentations

Electricity Part 2: Electric Current. Electric current is the amount of charge moving past a point Maxwell Demon counting the charges passing a given.

Advertisements

Cells have positive and negative electrodes.

The amount of charge passing a point in a given time interval is.

Bell Ringer R30 What do you think a circuit looks like if you would draw a picture? Include in picture: battery, wires, and a lightbulb.

Topic 2 Electricity Within a Circuit. Static and Current Electricity: When charged particles build up in an object it is called static electricity. Another.

Resistance and Ohm’s Law. Current Electricity and Static Electricity Current ElectricityStatic Electricity amount of charge moving through a circuit build.

If you want your boats or anything on your boats, go get them now. Otherwise, just leave them here.

Current, Voltage, and Resistance in a circuit

Current Electricity.

Electricity and Electrical Circuits. Chapter Sections O 1 - Electrical Circuits O 2 - Current and Voltage O 3 - Resistance and Ohm’s Law.

Circuits & Electronics

Circuits Electric Circuit: a closed path along which charged particles move Electric Current: the rate at which a charge passes a given point in a circuit.

Electrical Energy - Moving electrons in a path is electricity

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

Current Electricity. Current A measure of the flow of charge. Ampere: Electrical measurement of the flow of electrons. 1 Ampere = 1 Coulomb/second. 1.

Dr. Jie ZouPHY Chapter 21 Electric Current and Direct- Current Circuits.

Electrical Current Mr. Fleming.

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

ELECTRIC CIRCUITS. I. Circuits A flow of electrons is called a current.  Symbol - I  Unit is Amperes or Amps (A)  I = q/t  Current is amount of charge.

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.

Electricity Part 2: Electric Current. A conductor/dielectric is 1.A material in which charges are free of move about 2.A material in which charges are.

Electric Circuit Charges in Motion OCHS Physics Ms. Henry.

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

Current Electricity If you found electrostatics shocking you’ll find this revolting.

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

Pre-Test Arrange proton, neutron, and electron in order of mass lowest to highest. What is the charge on each? Describe the behavior of like and unlike.

Chapter 22 Current Electricity.

Current of Electricity Electric Current Potential Difference Resistance and Resistivity Electromotive Force.

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

Electrical Systems. VOCABULARYOBJECTIVES  Series circuit  Voltage drop  Kirchoff’s Voltage Law Describe a series circuit. Calculate the resistance.

L 26 Electricity and Magnetism [3] Electric circuits Electric circuits what conducts electricity what conducts electricity what doesn’t conduct electricity.

Electric Current and Circuits Physics. Current The flow of charges Rate at which electric charges (+ or - ) pass through a conductor – Charge passes per.

Series and Parallel Wiring GET A CALCULATOR!!!!!.

Electric Current. Flow of Charge Potential difference causes flow of charge Similar to water flowing from high level to lower level Electric current is.

Chapter 8. Ohm’s Law  George Ohm experimented with circuits and came up with a mathematical relationship relating voltage, current and resistance in.

Electric Circuits and terms Electric circuits move charges around to deliver energy.

Electricity It’s Shocking!!. Current Electricity Current Electricity is a constant flow of electrons through a circuit. There are three main parts to.

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

Electricity on the Move. Current Electricity Unlike static electricity, which does not move except when discharged, current electricity is a continuous.

Current Electricity Current and Circuits Producing Electricity: electric current conventional current battery photovoltaic.

Electric Circuits. Electric Current – the movement or flow of electric charges from one place to another. Electric Circuit – a controlled path in which.

Current Electricity. Explore how a circuit works Follow the instructions on the handout to investigate how an electrical circuit works. You will find.

Electric Circuits and Electric Current  A flashlight, an electric toaster, and a car’s starting motor all involve electric circuits and electric current.

Current Resistance Electric Power & Energy. Voltage (V) Electric potential difference between 2 points on a conductor Sometimes described as “electric.

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

Current and Resistance El Paso Independent School District.

Electric Current. What is electrical current? When electrical charges move, they are known as electric current Electrical current is the flow of electrons.

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

Chapter 22 Current and Resistance. Contents Electric Current Batteries and EMF Resistance and Resistivity Ohm’s Law and simple circuits Energy and Power.

Ch.22-CURRENT ELECTRICITY

Aim: How is a Series Circuit different from a Parallel Circuit?

Voltage, Current, and Resistance

Electric Current Lesson 9.

Do Now: Why does current not come from a battery? Explain.

Electric Current.

Voltage and Power.

Electric Circuits.

Check your Understanding

Why Make Electrons Flow Anyway?

Funny Little Symbols What do they mean?.

Electromotive Force and Current

Voltage, Current, Resistance & Ohm’s Law

Electric Potential.

Modified by Mr. Wanninkhof

Please bring your book tomorrow.

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

Basic Circuits.

SCI 340 L43 circuits Group Work

Presentation transcript:

Electricity Part 2: Electric Current

Definition of current Electric current is the amount of charge moving through a surface in a time interval I = current  Q = amount of charge that passes point.  t = time for charge to pass by.

Current Positive or negative charges Convention: positive charge carriers Same current

Units of Current 1 Ampere (Amp) = 1 Coulomb/second

Electric currents only flow in wires A.True B.False

Examples of Currents Aurora Aurora Coronal mass ejection Coronal mass ejection Switch opening Switch opening

3 electron beams in a color TV

Tokamak Fusion Experiments JET discharge JET discharge JET discharge

Simple circuit When a charged particle passes through the battery, it gains energy. When the particle passes through the light bulb it gives up the energy as heat.

Ohm’s Law V = IR V= Voltage of the Battery. I=current in circuit. R=Resistance in the bulb/resistor. (Depends on materials and geometry.)

Units of Resistance R = V/I (volts/amps) R = V/I (volts/amps) By definition, 1 Ohm = 1 volt/amp, By definition, 1 Ohm = 1 volt/amp,or 1  = 1 V/A.

Water system analogy for circuit Pressure  voltage Rate  current Restriction  resistance

Water system analogy for circuit Water  charge Pipe  wire Restriction  resistance Pump  battery (emf) Without closed loop flow stops

Water circuit analogy

Example problem How many amps of current would flow in a light bulb that has a resistance of 60  if it is connected to a 12 V battery.

Current through 60  resistor with 12 V potential A.0.2 A B.5 A C.720 A D A

Example problem How many amps of current would flow in a light bulb that has a resistance of 60  if it is connected to a 12 V battery.

Power in a circuit When a charge Q passes through the battery it gains an amount of energy E = Q×V (This is the amount of work the battery does on the charge.)

If the charge takes an amount of time  t to pass through the battery, the battery supplies a power of (does work at a rate of)

The power supplied by the battery must be dissipated in the resistor. We also know the V = IR. Power dissipated in resistor

The power supplied by the battery must be dissipated in the resistor. We also know the V = IR. Power dissipated in resistor

Example Which light bulb has a higher resistance, a 100 W bulb or a 60 W bulb?

How much current does a 1500 W hairdryer draw? A.12.5 A B.0.08 A C.9.6 A D.216 A

Which light bulb has a higher resistance: a 100 W or a 60 W bulb? A.100 W bulb B.60 W bulb C.Both have the same resistance D.Neither