Basic Electricity and Electronics (BEE)

Slides:

Advertisements

Similar presentations

Introduction to Electricity

Advertisements

Circuits & Circuit Diagrams

Electricity Active Physics. The Atom All matter is made up of atoms Atoms are made up of 3 types of particles protons, electrons and neutrons Protons.

Basic Electricity. Connecting Satellites and Electronics All you need to be an inventor is a good imagination and a pile of junk. -Thomas Edison.

Electric Circuits AP Physics 1.

Electricity. Charges Atoms contain particles called protons, neutrons, and electrons. Protons (+) Electrons (-) Neutrons (0)

Voltage, Current, and Resistance

Electricity. Composition of matter Electrical Charge Current flow Voltage Source Cells & Batteries Resistance & Conductance Electric Circuits.

1. Goals E x p l a i n s t a t i c e l e c t r i c i t y i n t e r m s o f f r i c t i o n i n d u c t i o n c o n d u c t i o n E x p l a i n t h e f.

Circuits & Electronics

Current Electricity Electric Current Circuit – continuous conducting path between terminals of a battery (or other source of EMF) Electric Current.

In conclusion, there are two requirements which must be met in order to establish an electric circuit. The requirements are: 1.There must.

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

CHAPTER 7 ELECTRICITY BINGO. A circuit in which current has more than one path is called a _________________ circuit.

Electric Circuits Level 1 Physics.

Ordinary matter is made up of atoms that have positively charged nuclei and negatively charged electrons surrounding the nucleus. There is NO significance.

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

Electricity Electrical conductors and insulators.

George Washington University DC Circuits Lab ECE 002 Professor Ahmadi.

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

Electric Charge Electric charge is the physical property of matter that causes it to experience a force when placed in an electromagnetic field. There.

ELECTRICITY AND MAGNETISM SERIES VS PARALLEL CIRCUITS.

Electric Current and Resistance Physics. Potential Difference  Charges can “lose” potential energy by moving from a location at high potential (voltage)

Electric Current and Circuits. What is Current? Electric current is a flow of electric charge Electric current is a flow of electric charge I = Q/t I.

AP Physics C Electric Circuits.

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

ELECTRIC CIRCUITS BASICS. Electricity Basics Electricity starts with electrons. Every atom contains one or more electrons. Electrons have a negative charge.

 QUICK WRITE:  For 2 minutes, write in your IAN explaining where electric charges come from and why.  Rules - You MUST write for the entire time, even.

Investigating Basic Circuits Post-Activity Discussion

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

Chapter 7 Electricity. Charge comes from Parts of the Atom – Nucleus (middle) Protons – positive Neutrons – neutral – Outside Electrons – negative It.

University of Pennsylvania Basic Electronics Things to be covered: What is electricity Voltage, Current, Resistance Ohm’s Law Capacitors, Inductors Semiconductors.

Understanding Electricity Physical Science Chapters 6,7,8,and 9.

Static, Currents, Circuits

Science of Electricity Unit 1. Electricity Movement of electrons Invisible force that provides light, heat, sound, motion...

Electric Circuits. Electric circuit: a complete path from the positive terminal to the negative terminal.

ELECTRICITY Engineering Science – National 5. Voltage, Current & Resistance On the left is a hill with rain and a river, this will be used to illustrate.

Electric Circuits AP Physics C. Potential Difference =Voltage=EMF In a battery, a series of chemical reactions occur in which electrons are transferred.

SPH3U: Electricity Kirchhoff's Laws & Resistors. Circuits Review  Label the following as a Parallel Circuit or a Series Circuit. Label all the parts.

Simple Electric Circuits. Menu Circuit Symbols Current Voltage Resistance Summary Table.

Electric Circuits. Ohm’s Law Current, voltage, and resistance are related to one another. The relationship among resistance, voltage, and current is summed.

ELECTRICAL CIRCUITS All you need to be an inventor is a good imagination and a pile of junk. -Thomas Edison.

6.2 ELECTRONICS. CAPACITOR An electrical device used to store electrical charge.

Series and Parallel Circuits SNC1D. Series and Parallel Circuits Key Question: How do series and parallel circuits work?

Electrical Fundamentals. Basic Electricity What is Electricity? Electricity is basically a movement of electrons which can be controlled and used to.

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

ELECTRICAL CIRCUITS.

Electric Circuit Components are connected together with electrical wire to form a closed loop. Components are represented by symbols 1.

ELECTRICAL CIRCUITS All you need to be an inventor is a good imagination and a pile of junk. -Thomas Edison.

Electric Current and Resistance

Introduction to Electricity

Electrical Theory turn to chapter 8 in the A & P mechanics general handbook.

Introduction to Electricity

Electric & Magnetic Energy

Electric Circuits.

Introduction to Electricity

Resistors and Ohm’s Law

Introduction to Electricity animatedscience. co

Electrical Current &Circuits

Ohm’s Law This formula shows the relationship between current, voltage and resistance. Voltage (Volts) Current (Amps) Resistance (Ohms, )

Electrical Circuits Properties of an electrical circuit include Voltage Volts V Current Amps A Resistance Ohms Ω.

Intro to Electric Circuits

Free Electrons & Current

Physical science notes

Presentation transcript:

Basic Electricity and Electronics (BEE) 3/31/2017 11:06 PM Basic Electricity and Electronics (BEE) Prof. Thomas G. Re Introduction to electricity Nassau Community College © 2007 Microsoft Corporation. All rights reserved. Microsoft, Windows, Windows Vista and other product names are or may be registered trademarks and/or trademarks in the U.S. and/or other countries. The information herein is for informational purposes only and represents the current view of Microsoft Corporation as of the date of this presentation. Because Microsoft must respond to changing market conditions, it should not be interpreted to be a commitment on the part of Microsoft, and Microsoft cannot guarantee the accuracy of any information provided after the date of this presentation. MICROSOFT MAKES NO WARRANTIES, EXPRESS, IMPLIED OR STATUTORY, AS TO THE INFORMATION IN THIS PRESENTATION.

Electricity and Atoms Everything is made up of Atoms Atoms can makeup Liquids Solids Gas Each Atom Contains a A nucleolus containing both Neutrons (No Charge) Protons (Positive charge) Electrons (negative charge)

Electricity and Atoms (Continued) Each atom struggles to keep the same number of protons as electrons. Combining one or more atoms create a molecule. Molecules are the basic Building blocks of real objects H2O (A molecule of Water has two hydrogen and one Oxygen atom) CO2 (A molecule of Carbon Dioxide has one Carbon Atom and two Oxygen Atoms) Water of course is a liquid and Carbon Dioxide is a gas.

Conductors and Electrons Some Molecules will give up electrons quicker than others. These molecules make good conductors since electrons will move from atom to atom easier within the material. Good conductors include Silver Gold Platinum Copper Aluminum

Conductors and electrons (Cont.) Good Conductors will give up electrons easily. Insulators hold onto their electrons and become poor conductors. Insulators include Glass Plastic Electricity therefore, is the “flow” of electrons through conductors in a circuit.

Conductors and Electrons (Cont.) With Electricity, electrons will flow from a negative charge to a positive charge. That is, Electrons or the flow of electricity will go from the negative terminal on a battery to the positive. The Conventional flow of electricity though, travels from the positive charge to the negative. Use of the Conventional flow of electricity is used to help trace the flow of electricity through a circuit.

Electricity and Voltage (E) The Volt was named after Alsandro Volta He developed the first battery The electronic pressure in a circuit is named after him (voltage is the measurement of this pressure). The symbol used for voltage is E Voltage is the electrical force or pressure that “push” the electrons flowing through a circuit. Think of voltage as the pressure that is placed on a towns water supply from a water tower. This pressure helps deliver water to each of the houses connected to the water supply.

Current (I) Current is the amount of electrons flowing through a circuit. Measured in Amps. The electronic symbol I is used for current. If the water tower is the pressure or voltage of a circuit, think of the flow of water to each of the homes as the current.

Resistance (R) Restricts or controls the flow of electricity (current) in a circuit. With the water example, think of resistance in a circuit like kinking a garden hose. The more kinks that you put in the hose, the flow of water is reduced. Using that analogy it becomes clear that the diameter of a wire will also create resistance in a circuit. In addition to this, the length of a wire will also add to the resistance of a circuit.

Resistance (R) (Continued) Resistance is used in a circuit to control the flow of electricity for electronic circuits. For Example when you use Light Emitting Diodes(LEDS) Most LEDs require a maximum current of 20 mA (milli Amps) (and forward voltage of 2.5V (will discuss later) If you use a 9 volt battery to power the LED, you will need Resistors in the circuit to reduce the current and protect the LED. Too much current to the LED will damage the LED.

Resistance (R) (Continued) Resistors can be added to the circuit to reduce the current. Too little resistance will damage the LED. Too much Resistance will not allow the LED to light. Just the right balance of resistance will allow the LED to light safely. Laws and properties have been discovered in electricity and electronics that make it easier to determine this balance.

Ohms Law Discovered and developed by Georg Ohm E=IR E is the voltage I is the Current R is the resistance If the resistance of the circuit is fixed, as the voltage to the circuit is increased, so does the current. If voltage is fixed and the resistance is increased then the current is decreased.

Ohms Law Continued Ohms Law is one of many formulas that can be used to determine the correct voltage, resistance and current for a circuit to operate safely. Other variations of the Law include I=E/R R=E/I For Example: if a bulb requires .03 Amps and the circuit has the resistance of 200 ohms E= .03*200 = 6V That is 6V will be required to safely run this circuit.

Schematics and Basic Symbols Symbols are used to indicate components that are used in a circuit. The illustration to the right show a couple of symbols that are used for common components. Using these symbols in drawings called schematics help in planning your electronic circuit. We will only be dealing with DC circuits for now.

Types of Circuits There are two basic types of circuits that will be discussed here. Series circuit where all components follow a straight unidirectional path from the positive terminal of your power source to the negative. Parallel circuits where components of the circuit can be drawn in parallel to each other With parallel circuits the path of electricity goes through multiple branches in the circuit. Most circuits discussed here will be using both series and parallel circuits and different laws are used for each.

To the left you will see the two examples of a series and parallel circuit. Of course you can have circuit designs that will use both parallel and series circuits. Being able to identify the different types of circuits dictates the laws that are needed in each.

Basic Laws of series circuits. Total resistance of a series circuit is equal to the sum of each component’s resistance. That is Rt = R1 + R2 + ….. + Rn Current in a series circuit is constant (that is it is the same at each component. It = I1 = I2 = …..= In Kirchhoff's Voltage law states that the total voltage drops across each component is equal to the voltage that is applied. That is Et = E1 + E2 + …… + En (Simplified)

Basic Laws of series circuits cont. Of course the previous example was simplified. Because voltage drops are negative, if you add the drops together, you will have a negative number. The applied voltage to the circuit is positive. If you ad the total voltage drops to the total applied voltage, you should get zero. This will help us figure out the resistance in a circuit in the lab that follows.