Wireless Transmission 25 Wireless Transmission 25.

Slides:

Advertisements

Similar presentations

Electromagnetic Waves

Advertisements

Noadswood Science, EM & Communications  To understand how EM waves are used in communications Monday, August 25, 2014.

I. Electromagnetic Waves

REVISION What wave is missing and how does its frequency compare with gamma waves?(2)

Deborah Shindell.  What is it? What is it?  Radio Waves Radio Waves  Microwaves  The Ianfrared  Visible Light Waves  Ultraviolet Waves  X-rays.

Electromagnetic Radiation

Poster Project Waves.

Electromagnetic Waves. What are they? Electromagnetic waves are energy which radiate from a source in a wave pattern – troughs and crests Waves can be.

Light as a Wave One way to think about light is as a traveling wave A wave is just a disturbance or vibration in some medium – (water, air, space) A wave.

The Electromagnetic Spectrum

The Electromagnetic Spectrum By: [Your Name Here] Period [your period]

Introduction to Wireless Communication. History of wireless communication Guglielmo Marconi invented the wireless telegraph in 1896 Communication by encoding.

Wireless technology.

Spring 2006UCSD: Physics 8; Examples of Electromagnetic Waves/Radiation Radio Waves (AM and FM radio waves andTV signals) Cell phone communication.

Electromagnetic Waves

Poster Project Waves.

Bell Ringer We see color in our eyes because of our A. Rods B. Cones C. Iris D. Pupil.

Electromagnetic Spectrum A) The Waves of the Spectrum 1) EM spectrum: all of the frequencies or wavelengths of electromagnetic radiation 2) The EM spectrum.

The Electromagnetic Spectrum

Electromagnetic Spectrum. Radiation – energy moving from a source as a wave.

Chapter 4:Transmission Media 1 Basic Idea 2 Transmission media 3 Copper wires 4 Glass fibers 5 Radio 6 Microwave 7 Infrared 8 Laser 9 Choosing a medium.

Which day has the MOST sunlight in the United States?

Visible light and the electromagnetic spectrum. we can’t see all types of light! Visible light is a very small part of a large range of radiations. It.

Electromagnetic Waves & the Electromagnetic Spectrum.

Electromagnetic Spectrum

Electromagnetic Spectrum CH 27-Physics (B) Fall, 2010.

Electromagnetic Waves Can travel through empty space (non-mechanical) Produced by charged particles in motion or by the decay of subatomic particles Travel.

Chapter 13 Sound. Section 1 ► ► Electromagnetic waves   made by vibrating electric charges and can travel through space. ► ► Electric and magnetic.

Electromagnetic Waves

Electromagnetic Spectrum. Wave - Review Waves are oscillations that transport energy. 2 Types of waves:  Mechanical – waves that require a medium to.

Chapter 9 Installing Communication Devices Prepared by: Khurram N. Shamsi.

Effects of Electromagnetic Waves

The longest electromagnetic waves Microwaves and radio waves.

Chapter 9.1 Notes Electromagnetic Waves Part 1. A changing electric field can produce a changing Magnetic Field.Magnetic Field. A changing magnetic field.

The Electromagnetic Spectrum1 Wavelength/frequency/energy.

The Electromagnetic Spectrum1 Wavelength/frequency/energy.

Bellwork What is a transformer? What is a transformer? A device for increasing or decreasing voltage through electromagnetic induction A device for increasing.

Do Now: (5 min) When you send a text message to a friend from your phone, how do you think the message gets to their phone? Explain using TWO full sentences.

The Electromagnetic Spectrum. Electromagnetic Spectrum—name for the range of electromagnetic waves when placed in order of increasing frequency RADIO.

Waves we can’t see…. EM Spectrum The electromagnetic spectrum is the entire range of EM waves. It is divided into regions according to the length of the.

Waves. There are 2 types of waves –Transverse waves –Longitudinal waves.

 Electromagnetic waves are transverse waves that do not need a medium to travel › This means they can travel in space!  The transfer of energy by electromagnetic.

Light and Other E.M. Waves. Light is a transverse wave. – Travels perpendicular to the medium – Visible light is just 1 type of electromagnetic wave that.

Electromagnetic Spectrum. -is the range of all possible frequencies of electromagnetic radiation. The "electromagnetic spectrum" of an object is the characteristic.

Electromagnetic Spectrum

Nature of Light Waves Unit.

ultraviolet radiation

Electromagnetic Waves. Electromagnetic Spectrum Double Slit Experiment tour of the EM spectrum.

Travel through empty space or through matter and is produced by charged particles that are in motion. An electromagnetic wave is a wave that can A different.

Electromagnetic Spectrum The EM Spectrum What do a radio, heat lamp, the Sun, and an X-ray Machine have in Common? – All four transmit energy.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Chapter 13 Electromagnetic Waves Section 1 Characteristics of Light.

Light and the EM Spectrum The terms light, radiation, and electromagnetic wave can all be used to explain the same concept Light comes in many forms and.

Electromagnetic Waves  All electromagnetic waves are transverse waves.  They do not require a medium to travel through.  All types of electromagnetic.

Electromagnetic Waves

Waves in Electromagnetic Spectrum

Light and the Electromagnetic Spectrum

Waves X-rays are used in hospitals to take radiographs.

Electromagnetic Radiation

#6 Name W, Period The complete range of electromagnetic waves placed in order of increasing frequency is _________________.

Electromagnetic Waves & It’s Uses 8P3

The Electromagnetic Spectrum

Waves and Optics.

Waves Wave properties.

They all travel as electromagnetic waves!

Electromagnetic Spectrum

Light and Optics Intro.

Electromagnetic Waves

Electromagnetic Spectrum Notes

Chapter 3 The Electromagnetic Spectrum

Electromagnetic Spectrum

Presentation transcript:

Wireless Transmission 25 Wireless Transmission 25

Wireless Transmission 25 Our topic is still about sending data But this time we’re looking at ways that don’t use any cables We all use wireless transmission every day We’ll look at three familiar technologies But you need to know a little bit about how they work And you need to know why each technology is used in different ways in your everyday life…

Wireless Transmission 25 Infrared Satellite Microwave Short Range Medium Range Long Range

Wireless Transmission 25 So you’re only expected to know about those three wireless technologies But to understand even a bit about how they work, it’s worth spending a couple of minutes on some background You won’t need this for the exam But it should help you understand the basics a bit better…

Wireless Transmission 25 Backgrounder – Waves In Science, you learn about waves, wavelength and amplitude You also know about frequency based on different wavelengths High Frequency Low Frequency Wavelength Amplitude Hz = Hertz Cycles per second

Wireless Transmission 25 Backgrounder – Spectrum From Science, you also know about the electromagnetic spectrum This is energy travels in waves and spans a spectrum from very long radio waves to very short gamma rays. Our eyes eye can only detect a small ‘visible light’ part of this spectrum And we primarily use the middle of the spectrum for communication So when you send a text message, or watch TV or tune a radio, you are using electromagnetic energy Without these wireless waves, the world you know could not exist.

Wireless Transmission 25 Backgrounder – Cables & Digital Data Here’s the part of the EMS used for communication Kilo = Thousands of cycles per second Mega = Millions of cycles per second Giga = Billions of cycles per second

Wireless Transmission 25 Backgrounder – Radio Waves & Digital Data Radio waves have the longest wavelengths, from 30cm to several miles long. Radio waves are often used to transmit data and have all sorts of applications including radio, satellites, radar, and computer networks. Microwaves are shorter than radio waves with wavelengths measured in centimeters. We use microwaves to cook food as well as to transmit information Microwaves are useful in communication as they can penetrate clouds, smoke, and light rain

Wireless Transmission 25 Backgrounder – Radio Waves & Digital Data So, how do these waves actually carry data? The answer is modulation, which means changing a wave by the signal we transmit You know this from radio, where modulation is done by amplitude (AM) or frequency (FM)

Wireless Transmission 25 Backgrounder – Radio Waves & Digital Data So for digital data, you transmit 1s & 0s by modulating a wave by frequency or amplitude Send 1s at a low frequency and 0s at a high frequency Send 1s at a high amplitude and 0s at a low amplitude

Wireless Transmission 25 Infrared Satellite Microwave Short Range Medium Range Long Range

Wireless Transmission 25 Infrared Uses infrared light to transmit data That’s very high frequency light It’s a reliable method used for TV remotes & keyboards etc But only works in short range And devices must be in line of sight Can also suffer from interference

Wireless Transmission 25 Microwave Uses waves with short wavelengths to transmit data That’s microwaves Good for medium distances (‘Personal Area Network’ or PAN) Examples are Bluetooth devices, such as headsets or keyboard & mice Can suffer from interference from other devices eg a microwave oven that’s near to a computer device on same frequency

Wireless Transmission 25 Satellite Uses satellites in space to relay data between points on earth Examples include GPS or satellite TV Good for very long distances But expensive

Wireless Transmission 25 Infrared Satellite Microwave Short Range Medium Range Long Range

Wireless Transmission 25 Wireless Transmission 25

Wireless Transmission 25 Devices using wireless networking need a NIC Network Interface Card It’s the hardware for receiving wireless signals It’s built-into modern devices eg tablets & phones The NIC connects to a NAP Network Access Point Lots of places offer NAPs, such as cafes & libraries. Wireless networking is great – but always remember that you can only connect to the Internet if you have a signal!

Wireless Transmission 25

Wireless Transmission 25 Wireless Transmission 25