Energy & Sustainability. Lecture 8: Electric Power Generation And Distribution February 5, 2009
|
|
|
- Julianna Lamb
- 5 years ago
- Views:
Transcription
1 Energy & Sustainability Lecture 8: Electric Power Generation And Distribution February 5, 2009
2 Illumination Example Input stage Power Station Distribution system Your meter Useful energy!
3 Electric Power Generation Energy uses today Electric Power Generation Distribution (transmission) Storage Sustainable attributes and issues
4 Power Generation Historical Intro Wind, tidal, river flows, etc.
5 Power Generation Historical Intro Wind, tidal, river flows, etc. Steam engine
6 Power Generation Historical Intro Wind, tidal, river flows, etc. Steam engine Oil & coal
7 Power Generation Historical Intro Wind, tidal, river flows, etc. Steam engine Oil & coal Electricity generation & motor
8 Power Generation Historical Intro Wind, tidal, river flows, etc. Steam engine Oil & coal Electricity generation & motor Electric power
9 Where Do We Get Electricity? Nuclear & Fossil Gas
10 Where Do We Get Electricity? Non Thermal
11 Where Do We Get Electricity? Solar insolation
12 Where Do We Get Electricity? Thermochemical
13 Electricity Basics Carriers of electricity: electrons Current: Symbol: I = Q / t number of electrons per second Unit: amp or A, 1 A = 1 C/s, e x C 1 A is defined as the current required to produce a magnetic force of 2 x 10 7 N/m between two infinitely long thin wires spaced 1 m apart in the vacuum Voltage: - Symbol: V = I/t - difference in electrical potential that a supply maintains between its terminals, a measure of the energy supplied to electric charges as they pass through - Unit: 1 V = 1 A/1 s, energy supplied is 1 J
14 Electricity Basics (2) Resistance: Symbol R = V / I Ohm s law: resistance of a component is the voltage across it divided by the current flowing through it Resistance is component dependent May not be in practice a constant (e.g. increasing current in a wire may cause increasing component temperature and usually causes increasing resistance V = R x I Unit: 1 Ω (ohm) = 1 V / 1 A
15 Electricity Basics (3) Electric Power: rate at which energy is transformed Proportional to the product of the voltage and the current: P = V x I = R x I 2 = V 2 / R - Relationship holds equally for the electrical power provided by a supply or the power being dissipated as heat in a component - Unit: 1 W = 1 V x 1 A
16 Electricity Basics (4) The Power Supply: it is important to appreciate that an electrical supply does not supply electrons, it recycles them: - Consider simple circuit such as a bulb and a battery - Free electrons travel along a wire filament of the bulb constantly losing energy in collisions with the ions of the metal, ions gain energy which is observed as heat and light - Electrons gradually energy as they pass along the wire eventually returning to the battery, which transfers energy to electrons
17 Generation: E&M basics Mechanical Power can be converted directly into electrical energy 1831: dynamo by Faraday 1834: first commercial hand driven rotary generator
18 Generation: E&M basics Mechanical Power can be converted directly into electrical energy
19 Faraday s Law of Induction The induced electromotive force EMF in any close circuit is equal to the time rate of change of the magnetic flux through the circuit: EMF = dφ B /dt Electrical Generator
20 Faraday s Law of Induction Electrical Generator
21 AC or DC? DC (direct current) flows continuously in one direction (see simple circuit example). AC goes through a complete cycle of changes periodically in time, reversing direction from positive to negative Number of cycles per second: frequency f(hz)= 1/ T (sec) Mains frequency in Europe 50 Hz, in the US 60 Hz
22 AC or DC? P(t) = V 2 (t)/r Vrms=Vpeak/ 2 (for sinusoidal wave) 1 cycle time
23 Transformer Transforms voltages in an electrical system Step up or step down Work on alternating currents (mutual interaction of changing electrical and magnetic fields) V p /V s =N p /N s
24 Now we are (almost) ready for the grid:
Lecture Outline Chapter 23. Physics, 4 th Edition James S. Walker. Copyright 2010 Pearson Education, Inc.
Lecture Outline Chapter 23 Physics, 4 th Edition James S. Walker Chapter 23 Magnetic Flux and Faraday s Law of Induction Units of Chapter 23 Induced Electromotive Force Magnetic Flux Faraday s Law of Induction
PHYS 1444 Section 004. Lecture #18. Induction of EMF. Electric Generators DC Generator Eddy Currents Transformer. Monday, Apr. 9, Dr.
PHYS 1444 Section 004 Induction of EMF Lecture #18 Monday, April 9, 2012 Dr. Electric Generators DC Generator Eddy Currents Transformer Today s homework is #11, due 10pm, Tuesday, Apr. 17!! 1 Announcements
Phys102 Lecture 20/21 Electromagnetic Induction and Faraday s Law
Phys102 Lecture 20/21 Electromagnetic Induction and Faraday s Law Key Points Induced EMF Faraday s Law of Induction; Lenz s Law References SFU Ed: 29-1,2,3,4,5,6. 6 th Ed: 21-1,2,3,4,5,6,7. Induced EMF
English for Electrical Engineers
University of Kurdistan Department of Electrical & Computer Engineering English for Electrical Engineers H. Bevrani October, 2017 1 Contents Unit 1. Current, voltage and resistance... 3 Unit 2. Electrical
Farr High School NATIONAL 4 PHYSICS. Unit 1 Electricity and Energy. Revision Notes
Farr High School NATIONAL 4 PHYSICS Unit 1 Electricity and Energy Revision Notes Content Practical electrical and electronic circuits - Measurement of current, voltage and resistance using appropriate
Chapter 29 Electromagnetic Induction
Chapter 29 Electromagnetic Induction Lecture by Dr. Hebin Li Goals of Chapter 29 To examine experimental evidence that a changing magnetic field induces an emf To learn how Faraday s law relates the induced
PHYS 1444 Section 004. Lecture #19. DC Generator Transformer. Generalized Faraday s Law Mutual Inductance Self Inductance. Wednesday, Apr.
PHYS 1444 Section 004 DC Generator Transformer Lecture #19 Wednesday, April 11, 2012 Dr. Generalized Faraday s Law Mutual Inductance Self Inductance 1 Announcements Term exam #2 Non-comprehensive Date
Generating Electricity
Generating Electricity The dynamo effect An electric current is produced when a magnet is moved into a coil of wire in a circuit. The direction of the current is reversed when the magnet is moved out of
Science Part B Chapter 4- Electrical Energy. Lesson 1-
Science Part B Chapter 4- Electrical Energy Lesson 1- Most atoms have equal numbers of protons, which are positively charged, and electrons, which are negatively charged. These atoms have no charge; they
Today s lecture: Generators Eddy Currents Self Inductance Energy Stored in a Magnetic Field
PHYSICS 1B Today s lecture: Generators Eddy Currents Self Inductance Energy Stored in a Magnetic Field PHYSICS 1B Lenz's Law Generators Electric generators take in energy by work and transfer it out by
Almost 200 years ago, Faraday looked for evidence that a magnetic field would induce an electric current with this apparatus:
Chapter 21 Electromagnetic Induction and Faraday s Law Chapter 21 Induced EMF Faraday s Law of Induction; Lenz s Law EMF Induced in a Moving Conductor Changing Magnetic Flux Produces an E Field Inductance
PHY 152 (ELECTRICITY AND MAGNETISM)
PHY 152 (ELECTRICITY AND MAGNETISM) ELECTRIC MOTORS (AC & DC) ELECTRIC GENERATORS (AC & DC) AIMS Students should be able to Describe the principle of magnetic induction as it applies to DC and AC generators.
Faraday s Law of Induction III
Faraday s Law of Induction III Physics 2415 Lecture 21 Michael Fowler, UVa Today s Topics More on Faraday s Law of Induction Generators Back emf and Counter Torque Transformers General form of Faraday
ELECTROMAGNETIC INDUCTION. Faraday s Law Lenz s Law Generators Transformers Cell Phones
ELECTROMAGNETIC INDUCTION Faraday s Law Lenz s Law Generators Transformers Cell Phones Recall Oersted's principle: when a current passes through a straight conductor there will be a circular magnetic field
Faraday's Law of Induction
Induction EX-9914 Page 1 of 6 EQUIPMENT Faraday's Law of Induction INCLUDED: 1 Induction Wand EM-8099 1 Variable Gap Lab Magnet EM-8641 1 Large Rod Stand ME-8735 2 45 cm Long Steel Rod ME-8736 1 Multi
Electromagnetic Induction, Faraday s Experiment
Electromagnetic Induction, Faraday s Experiment A current can be produced by a changing magnetic field. First shown in an experiment by Michael Faraday A primary coil is connected to a battery. A secondary
Electricity Unit Review
Science 9 Electricity Unit Review Name: General Definitions: Neutral Object Charge Separation Electrical Discharge Electric Current Amperes (amps) Voltage (volts) Voltmeter Ammeters Galvanometer Multimeter
Chapter 23 Magnetic Flux and Faraday s Law of Induction
Chapter 23 Magnetic Flux and Faraday s Law of Induction Units of Chapter 23 Induced Electromotive Force Magnetic Flux Faraday s Law of Induction Lenz s Law Mechanical Work and Electrical Energy Generators
ECE1750, Spring Motor Drives and Other
ECE1750, Spring 2018 Motor Drives and Other Applications 1 Three-Phase Induction Motors Reliable Rugged Long lived Low maintenance Efficient (Source: EPRI Adjustable Speed Drives Application Guide) The
Section 1: Magnets and Magnetic Fields Section 2: Magnetism from Electric Currents Section 3: Electric Currents from Magnetism
Section 1: Magnets and Magnetic Fields Section 2: Magnetism from Electric Currents Section 3: Electric Currents from Magnetism Key Terms Magnetic Poles Magnetic Fields Magnets The name magnet comes from
DC motor theory. Resources and methods for learning about these subjects (list a few here, in preparation for your research):
DC motor theory This worksheet and all related files are licensed under the Creative Commons Attribution License, version 1.0. To view a copy of this license, visit http://creativecommons.org/licenses/by/1.0/,
Lecture PowerPoints. Chapter 21 Physics: Principles with Applications, 7th edition, Global Edition Giancoli
Lecture PowerPoints Chapter 21 Physics: Principles with Applications, 7th edition, Global Edition Giancoli This work is provided solely for the use of instructors in teaching their courses and assessing
DEPARTMENT OF EI ELECTRICAL MACHINE ASSIGNMENT 1
It is the mark of an educated mind to be able to entertain a thought without accepting it. DEPARTMENT OF EI ELECTRICAL MACHINE ASSIGNMENT 1 1. Explain the Basic concepts of rotating machine. 2. With help
Figure 1: Relative Directions as Defined for Faraday s Law
Faraday s Law INTRODUCTION This experiment examines Faraday s law of electromagnetic induction. The phenomenon involves induced voltages and currents due to changing magnetic fields. (Do not confuse this
16.3 Ohm s Law / Energy and Power / Electric Meters
16.3 Ohm s Law / Energy and Power / Electric Meters Voltage Within a battery, a chemical reaction occurs that transfers electrons from one terminal to another terminal. This potential difference across
Magnets and magnetism
Chapter 2 Electromagnetism Section 1 Magnets and magnetism Vocabulary: magnet magnetic pole magnetic force Properties of Magnets Magnetic Poles on a magnet, the magnetic poles are the locations where the
Physics 121 Practice Problem Solutions 11 Faraday s Law of Induction
Physics 121 Practice Problem Solutions 11 Faraday s Law of Induction Contents: 121P11-1P, 3P,4P, 5P, 7P, 17P, 19P, 24P, 27P, 28P, 31P Overview Magnetic Flux Motional EMF Two Magnetic Induction Experiments
Ordinary Level Physics ANSWERS : ELECTROMAGNETIC INDUCTION. Solutions
Ordinary Level Physics ANSWERS : ELECTROMAGNETIC INDUCTION Solutions 2015 Question 12 (d) [Ordinary Level] A solenoid (long coil of wire) is connected to a battery as shown. (i) Copy the diagram into your
Danyal Education (Contact: ) A commitment to teach and nurture. c) sketch a graph of voltage output against time for a simple a.c.
(Contact: 9855 9224) Electricity and Magnetism: Electromagnetic Induction (*) (#) Candidates should be able to: a) deduce from Faraday s experiments on electromagnetic induction or other appropriate experiments:
HL: Mutual Induction. Mutual / Self-Induction Learning Outcomes. Mutual / Self-Induction Learning Outcomes
1 Mutual / Self-Induction Learning Outcomes HL: Define and discuss mutual induction for two adjacent coils. HL: Demonstrate mutual induction. HL: Define and describe self-induction. HL: Demonstrate self-induction.
Photographs of large cities, such as Seattle, Washington, are visible reminders of how much people rely on electrical energy.
Photographs of large cities, such as Seattle, Washington, are visible reminders of how much people rely on electrical energy. Generating Electric Current How is voltage induced in a conductor? According
Review: Magnetic Flux, EMF
Announcements Professor Reitze taking over for the rest of the semester Occasional classes by Professor Kumar WebAssign HW Set 7 due the Friday Problems cover material from Chapters 20 and 21 Tea and Cookies
FARADAY S LAW ELECTROMAGNETIC INDUCTION
FARADAY S LAW ELECTROMAGNETIC INDUCTION magnetic flux density, magnetic field strength, -field, magnetic induction [tesla T] magnetic flux [weber Wb or T.m 2 ] A area [m 2 ] battery back t T f angle between
ELEN 236 DC Motors 1 DC Motors
ELEN 236 DC Motors 1 DC Motors Pictures source: http://hyperphysics.phy-astr.gsu.edu/hbase/magnetic/mothow.html#c1 1 2 3 Some DC Motor Terms: 1. rotor: The movable part of the DC motor 2. armature: The
Electricity and Magnetism
Electricity and Magnetism What is electricity? The collection or flow of electrons in the form of an electric charge What is static electricity? When two objects rub against each other, electrons transfer
Chapter 22 Current and Resistance
Chapter 22 Current and Resistance Chapter Goal: To learn how and why charge moves through a conductor as what we call a current. Slide 22-1 Chapter 22 Preview Looking Ahead Text: p. 702 Slide 22-2 Electric
Math and Science for Sub-Saharan Africa (MS4SSA)
() Project-Based Learning: Introduction to Photovoltaics M.G. Zebaze Kana Visiting Scholar, Introduction to Electricity and Photovoltaics Section A: Background and introduction Section B: Introduction
SPH3U UNIVERSITY PHYSICS
SPH3U UNIVERSITY PHYSICS ELECTRICITY & MAGNETISM L (P.599-604) The large-scale production of electrical energy that we have today is possible because of electromagnetic induction. The electric generator,
Lecture 19 Chapter 30 Faraday s Law Course website:
Lecture 19 Chapter 30 Faraday s Law Who cares that Faraday s Law is used here? Course website: http://faculty.uml.edu/andriy_danylov/teaching/physicsii Today we are going to discuss: Chapter 30: Section
INDUCED ELECTROMOTIVE FORCE (1)
INDUCED ELECTROMOTIVE FORCE (1) Michael Faraday showed in the 19 th Century that a magnetic field can produce an electric field To show this, two circuits are involved, the first of which is called the
CHAPTER 6 INTRODUCTION TO MOTORS AND GENERATORS
CHAPTER 6 INTRODUCTION TO MOTORS AND GENERATORS Objective Describe the necessary conditions for motor and generator operation. Calculate the force on a conductor carrying current in the presence of the
Science 30 Unit C Electromagnetic Energy
Science 30 Unit C Electromagnetic Energy Outcome 1: Students will explain field theory and analyze its applications in technologies used to produce, transmit and transform electrical energy. Specific Outcome
CHAPTER 8: ELECTROMAGNETISM
CHAPTER 8: ELECTROMAGNETISM 8.1 Effect of a Magnet on a Current-carrying Conductor 8.1.1 Straight Wire Magnetic fields are circular Field is strongest close to the wire Increasing the current increases
SSC-JE STAFF SELECTION COMMISSION ELECTRICAL ENGINEERING STUDY MATERIAL ELECTRICAL MACHINES
1 SSC-JE STAFF SELECTION COMMISSION ELECTRICAL ENGINEERING STUDY MATERIAL 28-B/7, Jia Sarai, Near IIT, Hauz Khas, New Delhi-110016. Ph. 011-26514888. www.engineersinstitute.com 2 CONTENT 1. : DC MACHINE,
Electric Current. Electric current: is the movement of electrons from a negative terminal back to the positive terminal of a battery.
Electric Current Electric current: is the movement of electrons from a negative terminal back to the positive terminal of a battery. Electric Current Electrons flow from regions of high Potential Energy
Energy Conversions Questions CfE
Energy Conversions Questions CfE 1) A 0.02kg mass is held at a height of 0.8m above the ground. a) Calculate the gravitational potential energy stored in the mass before it is dropped. b) i) State the
How is lightning similar to getting an electric shock when you reach for a metal door knob?
How is lightning similar to getting an electric shock when you reach for a metal door knob? Electricity Electric charges are from protons, which are positive (+) and electrons, which are negative (-).
Adapted from presentation developed by Scott Fausneaucht
Adapted from presentation developed by Scott Fausneaucht Definition of Electricity Electrical Fundamentals Generation & Transmission Transformers Fuses & Circuit Breakers Motors Motor Controls Safety Not
Induction Motor Control
Induction Motor Control A much misunderstood yet vitally important facet of electrical engineering. The Induction Motor A very major consumer of electrical energy in industry today. The major source of
Experiment 10. Faraday s Law of Induction. One large and two small (with handles) coils, plastic triangles, T-base BNC connector, graph paper.
PHYSICS 171 UNIVERSITY PHYSICS LAB II Experiment 10 Faraday s Law of Induction Equipment: F Supplies: unction Generator, Oscilloscope. One large and two small (with handles) coils, plastic triangles, T-base
Chapter 29 Electromagnetic Induction and Faraday s Law
Chapter 29 Electromagnetic Induction and Faraday s Law 29.1 Induced EMF Units of Chapter 29 : 1-8 29.3 EMF Induced in a Moving Conductor: 9, 10 29.4 Electric Generators: 11 29.5 Counter EMF and Torque;
Lecture 20: Stator Control - Stator Voltage and Frequency Control
Lecture 20: Stator Control - Stator Voltage and Frequency Control Speed Control from Stator Side 1. V / f control or frequency control - Whenever three phase supply is given to three phase induction motor
Current Electricity. GRADE 10 PHYSICAL SCIENCE Robyn Basson CAPS
Current Electricity GRADE 10 PHYSICAL SCIENCE Robyn Basson CAPS What is current electricity? The flow of moving charge, usually carried by moving electrons in a wire. Circuits A path in which charges continually
CHAPTER 8: ELECTROMAGNETISM
CHAPTER 8: ELECTROMAGNETISM 8.1: MAGNETIC EFFECT OF A CURRENT-CARRYING CONDUCTOR Electromagnets 1. Conductor is a material that can flow.. current 2. Electromagnetism is the study of the relationship between.and
ESO 210 Introduction to Electrical Engineering
ESO 210 Introduction to Electrical Engineering Lectures-37 Polyphase (3-phase) Induction Motor 2 Determination of Induction Machine Parameters Three tests are needed to determine the parameters in an induction
Full file at
CHAPTER 2 FUNDAMENTALS OF ELECTRICITY Job Assignment for This Chapter: You are on a service call and a customer does not understand the basic theory of electricity and thinks you are trying to sell parts
1. This question is about electrical energy and associated phenomena.
1. This question is about electrical energy and associated phenomena. Electromagnetism The current in the circuit is switched on. electromagnet State Faraday s law of electromagnetic induction and use
EEE3441 Electrical Machines Department of Electrical Engineering. Lecture. Introduction to Electrical Machines
Department of Electrical Engineering Lecture Introduction to Electrical Machines 1 In this Lecture Induction motors and synchronous machines are introduced Production of rotating magnetic field Three-phase
Chapter 31. Faraday s Law
Chapter 31 Faraday s Law Michael Faraday 1791 1867 British physicist and chemist Great experimental scientist Contributions to early electricity include: Invention of motor, generator, and transformer
ELECTRICITY UNIT NAME
ELECTRICITY UNIT NAME Atom An atom is the smallest particle characterizing an element. All matter in the universe is made up of a combination of different atoms. Atoms are made up of protons, neutrons
Electrical Machines II. Week 5-6: Induction Motor Construction, theory of operation, rotating magnetic field and equivalent circuit
Electrical Machines II Week 5-6: Induction Motor Construction, theory of operation, rotating magnetic field and equivalent circuit Asynchronous (Induction) Motor: industrial construction Two types of induction
ELECTRIC POWER AND HOUSEHOLD CIRCUITS
ELECTRIC POWER AND HOUSEHOLD CIRCUITS HEATING EFFECT OF CURRENT Heating effect of electricity is one of the widely-used effects in the world. When electric current is passed through a conductor, it generates
National 4 Physics - Electricity and Energy Summary Notes
Electromagnetism Magnetic fields Magnetic fields are found around any permanent or electromagnet. They are normally invisible but can be shown up by placing a sheet of paper over the magnet and sprinkling
Electricity MR. BANKS 8 TH GRADE SCIENCE
Electricity MR. BANKS 8 TH GRADE SCIENCE Electric charges Atoms and molecules can have electrical charges. These are caused by electrons and protons. Electrons are negatively charged. Protons are positively
APGENCO/APTRANSCO Assistant Engineer Electrical Previous Question Papers Q.1 The two windings of a transformer is conductively linked. inductively linked. not linked at all. electrically linked. Q.2 A
Parts of an atom. Protons (P + ) Electrons (e - ) Neutrons. Have a positive electric charge. Have a negative electric charge
Electricity Parts of an atom Protons (P + ) Have a positive electric charge Electrons (e - ) Have a negative electric charge Neutrons Are neutral Have no charge Electric Charge In most atoms, the charges
Chapter 22. Electromagnetic Induction
Chapter 22 Electromagnetic Induction 22.1 Induced Emf and Induced Current There are a number of ways a magnetic field can be used to generate an electric current. It is the changing field that produces
Welcome to the SEI presentation on the basics of electricity
Welcome to the SEI presentation on the basics of electricity 1 Electricity is a secondary energy source, meaning that it is produced from other, primary, energy sources. There are several primary sources
ELECTRICITY: INDUCTORS QUESTIONS
ELECTRICITY: INDUCTORS QUESTIONS No Brain Too Small PHYSICS QUESTION TWO (2017;2) In a car engine, an induction coil is used to produce a very high voltage spark. An induction coil acts in a similar way
Ch 20 Inductance and Faraday s Law 1, 3, 4, 5, 7, 9, 10, 11, 17, 21, 25, 30, 31, 39, 41, 49
Ch 20 Inductance and Faraday s Law 1, 3, 4, 5, 7, 9, 10, 11, 17, 21, 25, 30, 31, 39, 41, 49 The coil with the switch is connected to a battery. (Primary coil) When current goes through a coil, it produces
Flashlights. Flashlights 2. Flashlights 4. Flashlights 3. Flashlights 5. Flashlights 6
Flashlights 1 Flashlights 2 Observations about Flashlights Flashlights You turn them on and off with switches Brighter flashlights usually have more batteries Flashlights grow dimmer as their batteries
ELECTROMAGNETIC INDUCTION. FARADAY'S LAW
1. Aim. Physics Department Electricity and Magnetism Laboratory. ELECTROMAGNETIC INDUCTION. FARADAY'S LAW Observe the effect of introducing a permanent magnet into a coil. Study what happens when you introduce
ELECTRICAL FUNDAMENTALS
ELECTRICAL FUNDAMENTALS PLUG OCTOBER 27, 2016 ARINDERPAL MATHARU IDEAWORKS MOHAWK COLLEGE Introduction Goal: To provide you with the Electrical Fundamentals Early 1800s Timeline 21 ST Century Current Current
Renewable and Distributed Energy Resource Technologies
OCIECE EACJ5300/ELG7114i - 2013 Winter Term Renewable and Distributed Energy Resource Technologies Chapter 1 Power System Basics Instructor: Xiaoyu Wang, Assistant Professor Department of Electronics,
CURRENT ELECTRICITY - II
SALIENT FEATURES Faraday s laws of electrolysis Magnetic effects of electricity Electro magnetic induction CURRENT ELECTRICITY - II FARADAY S LAWS OF ELECTROYLYSIS ELECTROLYSIS The process of decomposition
Electric Current. Current and Voltage Difference
Current and Voltage Difference The net movement of electric charges in a single direction is an electric current. In a metal wire, or any material, electrons are in constant motion in all directions. As
L E A R N I N G O U T C O M E S
L E A R N I N G O U T C O M E S What is charge? How does a charge form? Electricity What is an electric current? Y E A R 1 0 C H A P T E R 1 2 What are conductors, insulators and semiconductors? How does
EKT112 Principles of Measurement and Instrumentation. Power Measurement
EKT112 Principles of Measurement and Instrumentation Power Measurement 1 Outline Power? Power in DC and AC Circuits Power Measurements Power Instrumentation (Wattmeter) 2 Concept of Electric POWER Power
Motional emf. as long as the velocity, field, and length are mutually perpendicular.
Motional emf Motional emf is the voltage induced across a conductor moving through a magnetic field. If a metal rod of length L moves at velocity v through a magnetic field B, the motional emf is: ε =
Faraday's Law of Induction
Purpose Theory Faraday's Law of Induction a. To investigate the emf induced in a coil that is swinging through a magnetic field; b. To investigate the energy conversion from mechanical energy to electrical
Incandescent Lightbulb. Electricity passes through a tungsten (W) filament, which in turn glows white hot (4500F).
1 2 3 4 5 6 7 8 9 10 11 12 13 14 Incandescent Lightbulb Electricity passes through a tungsten (W) filament, which in turn glows white hot (4500F). Very inefficient: 90% of the electrical energy is lost
Electric Generators *
OpenStax-CNX module: m55411 1 Electric Generators * OpenStax This work is produced by OpenStax-CNX and licensed under the Creative Commons Attribution License 4.0 1 Learning Objectives By the end of this
Electromagnetic Induction and Faraday s Law
Electromagnetic Induction and Faraday s Law Solenoid Magnetic Field of a Current Loop Solenoids produce a strong magnetic field by combining several loops. A solenoid is a long, helically wound coil of
BELT-DRIVEN ALTERNATORS
CHAPTER 13 BELT-DRIVEN ALTERNATORS INTRODUCTION A generator is a machine that converts mechanical energy into electrical energy using the principle of magnetic induction. This principle is based on the
Update. This week A. B. Kaye, Ph.D. Associate Professor of Physics. Michael Faraday
10/26/17 Update Last week Completed Sources of Magnetic Fields (Chapter 30) This week A. B. Kaye, Ph.D. Associate Professor of Physics (Chapter 31) Next week 30 October 3 November 2017 Chapter 32 Induction
Electromagnetic Induction Chapter Questions. 1. What is the Electromagnetic Force (EMF)? What are the units of EMF?
Electromagnetic Induction Chapter Questions 1. What is the Electromagnetic Force (EMF)? What are the units of EMF? 2. The discovery of electric currents generating an magnetic field led physicists to look
Experimental Question 1: Levitation of Conductors in an Oscillating Magnetic Field
Experimental Question 1: Levitation of Conductors in an Oscillating Magnetic Field In an oscillating magnetic field of sufficient strength, levitation of a metal conductor becomes possible. The levitation
Mechatronics Chapter 10 Actuators 10-3
MEMS1049 Mechatronics Chapter 10 Actuators 10-3 Electric Motor DC Motor DC Motor DC Motor DC Motor DC Motor Motor terminology Motor field current interaction Motor commutator It consists of a ring of
INSTITUTE OF AERONAUTICAL ENGINEERING Dundigal, Hyderabad
INSTITUTE OF AERONAUTICAL ENGINEERING Dundigal, Hyderabad - 500 043 MECHANICAL ENGINEERING ASSIGNMENT Name : Electrical and Electronics Engineering Code : A40203 Class : II B. Tech I Semester Branch :
Pre-lab Quiz/PHYS 224 Faraday s Law and Dynamo. Your name Lab section
Pre-lab Quiz/PHYS 224 Faraday s Law and Dynamo Your name Lab section 1. What do you investigate in this lab? 2. In a dynamo, the coil is wound with N=100 turns of wire and has an area A=0.0001 m 2. The
3 Electricity from Magnetism
CHAPTER 2 3 Electricity from Magnetism SECTION Electromagnetism BEFORE YOU READ After you read this section, you should be able to answer these questions: How can a magnetic field make an electric current?
Note 9: Faraday s Law
Note 9: Faraday s Law In 1831, Faraday discovered that EMF (electromotive force, i.e., voltage) was induced by time varying magnetic flux. This was a monumental discovery in the physics history. Before
CHAPTER 6 IGNITION SYSTEM
CHAPTER 6 CHAPTER 6 IGNITION SYSTEM CONTENTS PAGE Faraday s Law 02 The magneto System 04 Dynamo/Alternator System 06 Distributor 08 Electronic System 10 Spark Plugs 12 IGNITION SYSTEM Faraday s Law The
Unit 32 Three-Phase Alternators
Unit 32 Three-Phase Alternators Objectives: Discuss the operation of a three-phase alternator. Explain the effect of rotation speed on frequency. Explain the effect of field excitation on output voltage.
Historical Development
TOPIC 3 DC MACHINES DC Machines 2 Historical Development Direct current (DC) motor is one of the first machines devised to convert electrical power into mechanical power. Its origin can be traced to the
Electricity and Magnetism. Introduction/Review
Electricity and Magnetism Introduction/Review Overall Expectations By the end of this unit, students will: 1. Analyse the social, economic, and environmental impact of electrical energy production and
COPYRIGHTED MATERIAL SYSTEM OVERVIEW, TERMINOLOGY, AND BASIC CONCEPTS CHAPTER OBJECTIVES HISTORY OF ELECTRIC POWER
1 CHAPTER OBJECTIVES SYSTEM OVERVIEW, TERMINOLOGY, AND BASIC CONCEPTS Discuss the history of electricity Present a basic overview of today s electric power system Discuss general terminology and basic
Lab 9: Faraday s and Ampere s Laws
Lab 9: Faraday s and Ampere s Laws Introduction In this experiment we will explore the magnetic field produced by a current in a cylindrical coil of wire, that is, a solenoid. In the previous experiment
Single Phase Induction Motor. Dr. Sanjay Jain Department Of EE/EX
Single Phase Induction Motor Dr. Sanjay Jain Department Of EE/EX Application :- The single-phase induction machine is the most frequently used motor for refrigerators, washing machines, clocks, drills,
The rod and the cloth both become charged as electrons move between them.
1 polythene rod is rubbed with a cloth. polythene rod cloth The rod and the cloth both become charged as electrons move between them. The rod becomes negatively charged. Which diagram shows how the rod