Electronics Merit Badge Class 1 10/25/20151Electronics Merit Badge Class 1.

Slides:

Advertisements

Similar presentations

Electricity Chapter 13.

Advertisements

Electricity and It’s charge

Electricity. Static Electricity  Static electricity is the buildup of excess electric charge on an object.

What’s a Circuit?  A circuit is a closed path where positive charges flow from high to low potential. They can be manipulated on the way.

Electric Charges & Current

Electricity. 2 Electric Charges: Proton = Positive charge Electron = Negative Charge The amount of positive charge on a proton equals the amount of negative.

Chapter 7. Voltage Remember: Atoms are in EVERYTHING and they are made up of equal amounts of positive and negative charges. Battery: uses chemical energy.

Unit 14: Electricity Part One: Electric Circuits.

Electric Circuits.

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

Circuits  Electricity flowing through a substance is called an electric current.  A circuit is a path through which electricity flows from a negative.

Electronic component identification In order to identify electronic components from diagrams and data sheets and then select the appropriate electronic.

Electricity Chapter 20.

Goal: To understand Electrical Currents Objectives: 1)To understand The flow of charge 2)To understand Voltage. 3)To understand Resistance and Ohm’s Law.

Electronics Merit Badge

P5 – Electric Circuits. Static Electricity When two objects are rubbed together and become charged, electrons are transferred from one object to the other.

September 13, 2015 Electricity Merit Badge Class National Scout Jamboree 1 Electricity & Electronics Merit Badge Class 1 Name ______________________________.

Electrical Circuits Utah Underwater Robotics Instruction Slides.

Electric Charge and Static Electricity

Electricity Part 2. Learning Objectives TLW know the impact of energy transfer and energy conversion in everyday life (TEKS 5) TLW evaluate, investigate.

The world is filled with electrical charges:

Ch 20 Electricity.

Unit 6 Section 2 Notes. Static Electricity build-up surface  The build-up of an electric charge on the surface of an object. does not flow.  The charge.

ELECTRICITY Static Electricity Static electricity is when a charge is built up on an object. The charges do not move. This is usually caused by friction.

20.3 Electric Circuits

Unit 6 – Lecture 2. Electricity Study of electricity is < 200 yrs old Most investigation is in last 100 yrs due to modern innovations.

Electronics and Robotics Merit Badges Class 1 – Safety and Soldering 10/14/20151Electronics Merit Badge Class 1.

Physics I Honors 1 Current and Circuits Current Physics I Honors 2 Electric Current Voltage (which indicates the presence of an electric field) causes.

Computers – “From The Ground Up”

Chapter 7 Electricity. What is Charge? Protons have a (+) charge Electrons have a (-) charge Charge (q) is measured in Coulombs The elementary charge.

Electricity What is it and how does it work?. Some definitions to start with An electrical current is caused by the flow of negatively charged electrons.

ELECTRICITY Static Electricity Static electricity is when a charge is built up on an object. The charges do not move. This is usually caused by friction.

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

Electricity Ch. 11. Electric Charge All matter is made of atoms Atoms contain 2 charged particles—what are they? These charges produce attractive and.

13.2 & Current Definition: Flow of electric charge How many electrons pass a given point each second Water Analogy: Rate at which water flows Units:

Electrical Circuits. Objectives Objectives – Explain how electrical energy is supplied to devices in a circuit. – Use electrical symbols to draw simple.

Electric Charges & Current. Types of electric charge _______________ w/ ‘+’ charge “stuck” in the nucleus _______________ w/ ‘+’ charge “stuck” in the.

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

Electricity. Electricity  Is a natural form of energy that can take many different forms. It is defined briefly as the flow of electric charge. Lightning.

ELECTRIC CIRCUITS. Chapter Twenty: Electric Circuits  20.1 Charge  20.2 Electric Circuits  20.3 Current and Voltage  20.4 Resistance and Ohm’s Law.

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

SAMI MAKERSPACE MAKE: AN ELECTRONICS WORKSHOP. ELECTRICITY BASICS.

ELECTRICITY. Electric Charge  Protons and electrons both have the property of charge. Recall that protons are positive and electrons are negative. 

Electricity and Magnetism

Negative charges in an atom are called ___________. electrons.

Introduction to Electronic Circuits Khansaa Almansor.

Electronics Merit Badge Class 1 6/6/20161Electronics Merit Badge Class 1.

Electricity and Electromagnetism Electricity Magnetism Electromagnetism.

REVIEW of Static electricity Electricity A. Electric Charge 1. Static electricity is the accumulation of excess electric charges on an object. a. More.

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

Chapter Twenty: Electric Circuits  20.1 Charge  20.2 Electric Circuits  20.3 Current and Voltage  20.4 Resistance and Ohm’s Law.

Electricity. The flow of electric current. The flow of electric energy carried by electrons.

Ohm’s Law. From Static to Electric current  You cannot rub a balloon on your head and then plug in your radio to run off the charge on your hair…darn!!!!

Chapter Twenty: Electric Circuits

ELECTRIC CIRCUITS.

Electricity - BASIC CONCEPTS.

Electric & Magnetic Energy

Electric Charges & Current

Electric Charges & Current

Electricity Ch 17.

Everything is made up of atoms

Electricity & Electronics Merit Badge

Chapter Twenty: Electric Circuits

S8P5 [details] Students will recognize characteristics of gravity,

Electricity Mrs. “” Burge.

REVIEW of Static electricity

Physical Science Chapter’s 20 and 21.

L 26 Electricity and Magnetism [3]

Presentation transcript:

Electronics Merit Badge Class 1 10/25/20151Electronics Merit Badge Class 1

Engineering Jobs 1.Semiconductors 2.Computers 3.Automotive 4.Aerospace 10/25/20152Electronics Merit Badge Class 1 5.Entertainment 6.Robotics 7.Energy Industries

10/25/20153Electronics Merit Badge Class 1 1.ASIC Design Engineer 2.Digital Design Engineer 3.Electronic Design Engineer 4.CAD Engineer 5.Hardware Design Engineer 6.Test Engineer 7.Maintenance Technician 8.Electronics Technician 9.Field Service Engineer 10.Software Design Engineer 11.Application Design Engineer Jobs in Engineering

Engineering Education Your Brain A brain assistant. 10/25/20154Electronics Merit Badge Class 1

Safety with Electricity and Electronics 10/25/20155Electronics Merit Badge Class 1

Electricity Safety High Voltage ( 120V AC or greater) – Safety mainly about not touching the wrong thing. Current kills – Only 16 volts can kill when enough electrons flow through the heart or head. Ventricular fibrillation – Electrons passing through the heart causes muscles to seize, causing death. If the shock doesn’t kill you, you can still be badly burned from touching the wrong thing. 10/25/20156Electronics Merit Badge Class 1

How to avoid shock. Turn power off before working on equipment. Don’t touch circuits that could have high voltage on them. Do not allow electrons to flow through the heart. I don’t think the snake knew about this detail. 10/25/20157Electronics Merit Badge Class 1

Electronics Safety Electronics generally uses lower voltages (less than 48 volts). You are usually working with DC voltage instead of AC voltage. You are usually more concerned with sparks from connecting the wrong wires together, or burning yourself with a soldering iron, or some similar event. Even when working with lower voltages, you may still receive an electrical shock from equipment you are using. 10/25/20158Electronics Merit Badge Class 1

Personal Safety Be aware of what you are doing, and where you are placing equipment and yourself. Pay attention to hot soldering irons. Keep a good distance between you those next to you. Know when you are working with high current and/or high voltage circuits. THINK before you do something. Wear safety glasses when soldering. 10/25/20159Electronics Merit Badge Class 1

Types of Electricity Static Electricity Static electricity is usually created when materials are pulled apart or rubbed together, causing positive (+) charges to collect on one material and negative (−) charges on the other surface.. Sparks may result! Examples of static electricity: 1.Lightning. 2.Combing hair. 3.Walking across carpet and getting shocked. 4.Pulling out scotch tape. 10/25/201510Electronics Merit Badge Class 1

Types of Electricity Alternating Current (AC) The common form of electricity from power plant to home/office. Its direction is reversed 60 times per second in the U.S.; 50 times in Europe. Examples of AC usage: 1.Kitchens: Stoves, ovens, mixer, etc. 2.Computers (the plug) 3.Lights in house 4.Home air conditioners. 10/25/201511Electronics Merit Badge Class 1

Types of Electricity Direct Current (DC) Type of electricity used in most electronics we have today. Current only flows in one direction (not both directions, like AC). Examples of DC usage: 1.MP3 players 2.Radios 3.Electricity in cars. 4.Anywhere you use a battery for power. 10/25/201512Electronics Merit Badge Class 1

Basics of Electronics Current: Defined as “flow of electrons”. Current: Units of current is AMPS. Current: Electrical symbol for current is I (eye). 10/25/201513Electronics Merit Badge Class 1

Current Flow – Water Analogy 1.Water flows in the hose, entering at the top and exiting the bottom. 2.The water is the “current” ; the flow of electrons. 3.The more water flowing in the pipe, the more electrons are flowing in the wire. 4.Different pipe diameters illustrates different resistance to water flow, which correlates to different resistor values. 10/25/201514Electronics Merit Badge Class 1

Voltage Volts is the electrical force that causes electrons (current) to flow. Voltage can also be thought of as the electrical pressure that pushes electrons in a wire. Units for voltage is VOLTS. The symbol for voltage is E. The schematic symbol for voltage is generally shown as a battery GND 10/25/201515Electronics Merit Badge Class 1

Voltage – Water Analogy 1.Gravity provides the force for water (current) to flow. 2.This illustrates a small voltage, so electron flow is small. 1.Gravity provides the force for water (current) to flow. 2.This illustrates a larger voltage, so electron flow is larger. Small height = low voltage Big height = high voltage height 10/25/201516Electronics Merit Badge Class 1

Resistance Resistance is the electrical property of a substance to resist the flow of electrons (current). The units for resistance is OHMS (Ω). The symbol for resistance is R. The schematic symbol is The larger the resistance, the more resistance to current. 10/25/201517Electronics Merit Badge Class 1

Resistance – Water Analogy Different pipe diameters represents different resistor values. The smaller the diameter of the pipe, the larger the resistance. 1Ω1Ω 10Ω 100Ω 1000Ω 10000Ω 10/25/201518Electronics Merit Badge Class 1

Power – Water Analogy In electronics, power is equal to current X voltage. The units for power is WATTS. The symbol for power is W. In our water analogy, power is equal to water flow X pressure. You can see from the picture that more water flow will mean more force, and more pressure will mean more force.

Ohms Law V = I x R: Volts = Current x Resistance Units – Volts is in volts – Current is in amps – Resistance is in ohms 10/25/201520Electronics Merit Badge Class 1

Electronic Symbols Single Pole, Double Throw Switch (SPDT) Battery Resistor Light Emitting Diode (LED) Buzzer Fuse Lamp or Capacitor Ground W NC NO 10/25/201521Electronics Merit Badge Class 1

CIRCUIT DIAGRAM (SCHEMATIC) + SWITCHLAMP GROUND FLASHLIGHT TWO GROUND SYMBOLS IS THE SAME AS CONNECTING WITH A WIRE GROUND = 0 VOLTS 10/25/201522Electronics Merit Badge Class 1

SPDT FUSE BATTERY BUZZER LAMP + - CIRCUIT CONNECTION BOX Wire circuit to use switch to turn on lamp. W NONC GND = 0V 10/25/201523Electronics Merit Badge Class 1

CIRCUIT CONNECTION BOX Wire circuit to use switch to turn on lamp AND buzzer. SPDT FUSE BATTERY BUZZER LAMP + - W NONC GND = 0V 10/25/201524Electronics Merit Badge Class 1