Presentation is loading. Please wait.

Presentation is loading. Please wait.

Current, Voltage and Resistance Unit 43

Published byJosephine Marion Modified over 5 years ago

Similar presentations

Presentation on theme: "Current, Voltage and Resistance Unit 43"— Presentation transcript:

1 Current, Voltage and Resistance Unit 43
Dr. Hatem Elaydi Engineering Technical English Islamic University of Gaza April 2, 2016

2 Outlines: Electric current Voltage and resistance Electrical power
Dr. Hatem Elaydi, IUG, Spring 2016, ENGG 1305

3 A. Electric Current The photo on the opposite page shows a simple electric circuit (or circuit). A cell provides an electric current (or current). This flows through wires, which conduct the electricity (provide a way for it to travel). The current is used to light a lamp. So, like all circuits, the example includes: an electrical supply - in this case, the cell an electrical conductor (or conductor)- an electrical path- in this case, wires one or more electrical components (or components)- electrical devices (in this case, the lamp) which have a function. Dr. Hatem Elaydi, IUG, Spring 2016, ENGG 1305

4 B. Voltage and Resistance
The amount of current (in amps) flowing through a circuit will partly depend on the electromotive force (EMF) of the electrical supply. Electromotive force is measured in volts (V), and is generally called voltage. The voltage depends on the 'strength' of the electrical supply. In the diagram above, adding a second cell would supply a higher voltage. The amount of current will also depend on electrical resistance (or resistance). This value- in ohms (0) - is a measure of how easily current can flow through the conductors and components in a circuit. For example, a lamp creates resistance because the filament- the metal wire inside it - is very thin. This limits the amount of current that can flow. Resistance also depends on the materials used as conductors. For example, copper has a low resistance and so is a good conductor. Dr. Hatem Elaydi, IUG, Spring 2016, ENGG 1305

5 B. Voltage and Resistance
Materials with very high resistance, such as plastics, are called electrical insulators (or insulators). Only very high voltages cause current to flow through them. Materials that are good insulators are used to insulate conductors. An example is plastic insulation around electric wires. This stops people from touching the conductor and- if it is live (carrying current)- from getting a dangerous electric shock. Dr. Hatem Elaydi, IUG, Spring 2016, ENGG 1305

6 C. Electrical Power The text below, about electrical power, is from a home improvements magazine The amount of current, in amps, required by an electrical appliance- such as a TV or an electric kettle -depends on the power of the appliance. This number- expressed in watts (W)- will be marked somewhere on the appliance. To calculate the required current, simply take the wattage and divide it by the voltage of the electrical supply in your home- around 230 volts in most of Europe. Therefore, for an electric kettle with a power rating of 2,000 watts (as specified by the manufacturer), the current required is: Dr. Hatem Elaydi, IUG, Spring 2016, ENGG 1305

7 43. 1 Complete the word puzzle and find the word going down the page
43.1 Complete the word puzzle and find the word going down the page. Look at A, B and C opposite page to help you. 1 another term for amperage 2 provided by a battery, for example 3 measured as a wattage 4 allows current to flow through it 5 has very high electrical resistance 6 carried by moving electrons 7 another term for an electrical 'device' 8 the consequence of a person touching a live conductor Dr. Hatem Elaydi, IUG, Spring 2016, ENGG 1305

8 43. 1 Complete the word puzzle and find the word going down the page
43.1 Complete the word puzzle and find the word going down the page. Look at A, B and C opposite page to help you. Dr. Hatem Elaydi, IUG, Spring 2016, ENGG 1305

9 43.2 Complete the extract about current and power calculations using the words in the box. Look at A, B and C opposite to help you. 1 current 2 circuit 3 amps 4 voltage 5 supply 6 volts 7 resistance 8 ohms 9 components 1 0 conductor 11 watts 12 wattage In electrical calculations, electromotive force is expressed by the letter E, resistance by the letter R, and current by the letter 1 (which comes from the word 'intensity'). According to Ohm's Law: I = E/R. In other words, the (1) flowing through a (2) , measured in (3) , equals the (4) of the electrical (5) , measured in (6) ,divided by the total (7) ,measured in (8) To work out the value of R, it is necessary to calculate the total resistance of all the (9) and connecting lengths of (10) That make up the circuit. Once both the voltage and amperage are known, it is possible to work out the power, measured in (11) , that will be consumed. Power (P) can be calculated using the equation P = EI. Therefore (12) equals voltage multiplied by amperage. Dr. Hatem Elaydi, IUG, Spring 2016, ENGG 1305

Download ppt "Current, Voltage and Resistance Unit 43"

Similar presentations

Unit 10 - Electricity.

Unit 10 - Electricity.
Basic Electronics.

Basic Electronics.
Electric Current Section 2.

Electric Current Section 2.
What is Electricity? Electricity is the flow of moving electrons. When the electrons flow it is called an electrical current.

What is Electricity? Electricity is the flow of moving electrons. When the electrons flow it is called an electrical current.
Electric Circuits Electricity for Refrigeration, Heating and Air Conditioning 7th Edition Chapter 3 Electric Circuits.

Electric Circuits Electricity for Refrigeration, Heating and Air Conditioning 7th Edition Chapter 3 Electric Circuits.
CURRENTS AND OHM’S LAW. What?  Electricity – flow of electric current  Electric current – the movement of an electrical charge.  In most cases, we.

CURRENTS AND OHM’S LAW. What?  Electricity – flow of electric current  Electric current – the movement of an electrical charge.  In most cases, we.
Circuits & Electronics

Circuits & Electronics
Basic Electrical Theory: Understanding Ohm’s Law Copyright © Texas Education Agency, 2011. All rights reserved.

Basic Electrical Theory: Understanding Ohm’s Law Copyright © Texas Education Agency, All rights reserved.
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.

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.
Electricity Skill Trades 1201. Parts of An Atom Electrons are negatively charged particles that orbit around the nucleus. Protons are positively charged.

Electricity Skill Trades Parts of An Atom Electrons are negatively charged particles that orbit around the nucleus. Protons are positively charged.
P5 – Electric Circuits. Static Electricity When two objects are rubbed together and become charged, electrons are transferred from one object to the other.

P5 – Electric Circuits. Static Electricity When two objects are rubbed together and become charged, electrons are transferred from one object to the other.
Static Electricity Electrical Charge: Is a concentration of electricity.

Static Electricity Electrical Charge: Is a concentration of electricity.
CHAPTER 7 ELECTRICITY BINGO. A circuit in which current has more than one path is called a _________________ circuit.

CHAPTER 7 ELECTRICITY BINGO. A circuit in which current has more than one path is called a _________________ circuit.
Ch 20 Electricity.

Ch 20 Electricity.
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.

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.
VOLTAGE, Current, & resistance. 10/10/2015Template copyright 2005 www.brainybetty.com2 VOLTAGE Volts measure the energy level in a circuit. When you connect.

VOLTAGE, Current, & resistance. 10/10/2015Template copyright VOLTAGE Volts measure the energy level in a circuit. When you connect.
Current - rate at which charge passes a given point.

Current - rate at which charge passes 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.

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. Conductors and Insulators Conductors are materials that allow electricity to flow easily Examples: metal, water, air and some chemicals Insulators.

Electricity. Conductors and Insulators Conductors are materials that allow electricity to flow easily Examples: metal, water, air and some chemicals Insulators.
Calculating Electricity

Calculating Electricity

Similar presentations

Ads by Google