Applications of Electromagnetic Spectrum PDF

Summary

This document discusses the applications of electromagnetic spectrum. It covers various types of electromagnetic waves, their properties, uses in daily life, and provides examples. The document is presented for a secondary school level audience.

Full Transcript

# Applications of Electromagnetic Spectrum

## Objectives:

- Cite examples of practical applications of the different regions of EM waves, such as the use of radio waves in telecommunications. (S10-FE-Iic-d-48)
- Discuss the practical uses of EM waves
- Describe how EM waves can be used in daily activities.

## Electromagnetic Waves

- Transverse waves without a medium! (They can travel through empty space)
- A drawing of a transverse wave is shown with the following labels: Wavelength, Crest, Direction of travel, Amplitude, Trough, Movement of water molecules
- They travel as vibrations in electrical and magnetic fields.
- Have some magnetic and some electrical properties to them.
- A drawing showing a wave with vibrating magnetic and electric fields is shown with labels: Magnetic field, Electric field, Wavelength λ, Direction of propagation

## Speed of Electromagnetic Waves

- Electromagnetic waves travel VERY FAST—around 300,000 kilometers per second (the speed of light).
- At this speed, they can go around the world 8 times in one second.
- A drawing of the earth is shown with an arrow representing the speed of an electromagnetic wave, going around the globe.

## Electromagnetic Spectrum

- Name for the range of electromagnetic waves when placed in order of increasing frequency
- An illustrated diagram shows the different electromagnetic waves in their place on the spectrum, along with their wavelengths and frequency:
- Radio waves
- Microwaves
- Infrared Rays
- Visible Light
- Ultraviolet Rays
- X-rays
- Gamma rays

## Radio Waves

- Have the longest wavelengths and lowest frequencies of all the electromagnetic waves.
- A diagram of a radio wave is shown with the following labels: Wavelength (nm), Radio Wave, 10¹, 10³, 10⁶, 10⁹, 10¹², Mi

### Uses of Radio Waves:

- **Global Positioning Systems (GPS):** Measure the time it takes a radio wave to travel from several satellites to the receiver, determining the distance to each satellite.
- A drawing of a GPS displaying a map is shown, along with a drawing showing the way that a GPS works, using satellites.
- **Radio:** Picks up radio waves through an antenna and converts it to sound waves.
- Each radio station in an area broadcasts at a different frequency.
- Number on the radio dial tells the frequency.
- A drawing of a classic boombox radio is shown.

- **Audio-frequency (AF) signals:** patterns of electric current variations
- **Radio-frequency (RF):** high-frequency radio waves
- **Frequency Modulation:** frequency of a wave that changes to match that of a signal.
- A drawing of a boombox radio is shown.

- **MRI (Magnetic Resonance Imaging):** Uses short radio waves with a magnet to create an image.
- A drawing of an MRI machine is shown, along with a person undergoing an MRI.

## Microwaves

- Have the shortest wavelengths and the highest frequency of the radio waves.
- A diagram of a microwave wave has the following labels: (nm) Wave, 10^-10, 10^-8, 10^-6, 10^-4, 10^-2, 1, 10², 10⁴, 10⁶, 10⁸. A drawing of a microwave is shown.

### Uses of Microwaves:

- **Microwave Ovens:** Waves transfer energy to the water in the food causing them to vibrate which in turn transfers energy in the form of heat to the food.
- A drawing of a microwave oven with a chicken inside is shown.

- **Radar (Radio Detection and Ranging):** A radar system consisting of an antenna, transmitter, and a receiver. Electromagnetic sensor used for detecting, locating, tracking, and recognizing objects of various kinds at considerable distances.
- A drawing of a speed gun is shown.

- **Terrestrial Communications:** Satellite television and cellphone communication.
- A drawing of a satellite dish is shown, along with a mobile phone.

## Infrared Rays

- Lies beyond the end of the visible light; it is emitted by all objects.
- A diagram of an infrared wave shows the following labels: Microwave, 1 , 10², Infrared, 10⁴, 10⁶, UV, 10⁸, X-Ray, 10¹⁰, 10¹²,
- A drawing of a thermal image of a new born baby is shown.

### Uses of Infrared Rays:

- **Thermogram:** A picture that shows regions of different temperatures in the body. Temperatures are calculated using infrared radiations given off.
- A drawing of a person’s hand in infrared shows different temperatures, with the following labels: 7.5^o C and 1.3^o C
- A drawing of a heat lamp shows the following labels: Heat lamps give off infrared waves, inframetrics
- **Blue and Green in Infrared:** indicate regions of cooler temperature.
- **Red and Yellow in Infrared:** indicate warmer temperatures.
- A drawing of a cat in infrared is shown.
- **Infrared Photographs:** Provides useful details of the vegetation of the Earth’s surface.
- A drawing of a global infrared photograph with different colors indicating various vegetation is shown.
- **Infrared Scanners:** Show the temperature variation of the body.
- A drawing of a hand-held infrared scanner is shown, along with a drawing of people walking through an infrared scanner with a monitor displaying the temperature.
- **Infrared Remote Controls:** Uses infrared rays.
- A drawing of a remote control and a cassette player are shown.
- **Night Vision Goggles:** Uses Infrared Rays.
- A drawing of a person using night vision goggles is shown.
- **Autofocus Cameras:** Uses infrared rays.
- A drawing of two cameras is shown.

## Visible Light

- Shorter wavelength and higher frequency than infrared rays.
- Electromagnetic waves we can see.
- **Longest Wavelength:** red light
- **Shortest Wavelength:** violet (purple) light
- A diagram of a visible light wave has the following labels: 10^-6, 10^-4, 10^-2, 1, 10², 10⁴, Visible. A drawing of the visible light spectrum is shown.
- When light enters a new medium, it bends (refracts). Each wavelength bends a different amount allowing white light to separate into its various colors, ROYGBIV.
- A drawing shows a beam of white light being refracted through a triangle as it changes to a rainbow, labelled ROYGBIV.

## Ultraviolet Rays

- Shorter wavelength and higher frequency than visible light.
- Carry more energy than visible light.
- A diagram of a UV wave shows the following labels: ave, 10^-10, 10^-8, 10^-6, 10^-4, 10^-2, 1, 10², 10⁴, 10⁶, Infrared, UV, X-Ray, Gamma. A drawing of an ultraviolet machine is shown.

### Uses of UV Rays:

- **Sun:** The main source of ultraviolet radiation, but there are also artificial sources of UV light.
- **UV Lamps:** Used by banks to check the signature on a passbook.
- A drawing of a UV lamp is shown, along with a drawing of a money checker.
- **UV Radiation:** Used in sterilizing water from drinking fountains.
- A drawing of two water-sterilizing devices using UV lights are shown.
- **UV Radiation in Sunlight:** Produces Vitamin D in the skin and gives us the tanning effect.
- A drawing of a person sunbathing and a person in a tanning bed is shown.
- **Causes Your Skin to Produce Vitamin D:** Good for teeth and bones.
- A drawing of a person sunbathing is shown, showing the production of Vitamin D.
- **Too Much Causes Skin Cancer:** Suntan or sunscreen lotions serve as filters to protect the body from UV radiation.
- A drawing of different skin cancers, along with a variety of sunscreens is shown.

- **UV Radiation:** Used to kill bacteria. (Sterilization of equipment)
- A drawing of a bunch of bacteria is shown.

## X-rays

- Shorter wavelength and higher frequency than UV-rays.
- Carry a great amount of energy.
- Can penetrate most matter.
- A diagram of an X-ray wave shows the following labels: 10^-10, 10^-8, 10^-6, 10^-4, 10^-2, 1, 10², 10⁴, 10⁶, Infrared, UV, X-Ray, Gamma Ray. A drawing of a skeleton is shown.
- X-rays are produced using X-ray tubes. They are emitted when fast-moving electrons hit a metal target.
- Wilhelm Conrad Roentgen discovered X-rays.
- A drawing of Wilhelm Conrad Roentgen is shown, along with a drawing of the first X-ray of a hand that was ever taken.
- **X-Ray Machines:**
- A drawing of an older X-ray machine is shown.
- A drawing of a modern X-ray machine is shown.

### Uses of X-Rays:

- **Long Wavelength:** Bones and teeth absorb x-rays. (The light part of an x-ray image indicates a place where the x-ray was absorbed.)
- A drawing of a dental x-ray and a picture of a bat taken with an x-ray are shown.
- **Too Much Exposure Can Cause Cancer:** Lead vest at the dentist protects organs from unnecessary exposure.
- A drawing of a person wearing a lead vest is shown.
- **Short Wavelength:** Used by engineers to check for tiny cracks in structures.
- A drawing of a piece of concrete is shown with the following labels: Concrete sample, 1 cm. A close up of the concrete showing cracks is illustrated with an adjacent x-ray of the concrete showing the cracks.

## Gamma Rays

- Shorter wavelength and higher frequency than X-rays.
- Carry the greatest amount of energy and penetrate the most.
- A diagram of a Gamma ray shows the following labels: 10^-10, 10^-8, 10^-6, 10^-4, 10^-2, 1, 10², 10⁴, JV, X-Ray, Gamma Ray. A symbol representing gamma radiation is shown.
- Used to treat cancer cells in the process called radiotherapy.
- A drawing of a radiotherapy machine with someone laying on a table in it is shown.
- Can be very harmful if not used correctly.
- The Incredible Hulk was the victim of gamma radiation.
- A drawing of the Hulk is shown, along with a bunch of gamma rays radiating around him.
- Exploding nuclear weapons emit gamma rays.
- A drawing of an atomic bomb explosion is shown.

## Brief Summary

- **A:** All electromagnetic waves travel at the same speed (300,000,000 meters per second) in a vacuum.
- **B:** They all have different wavelengths and different frequencies.
- Long Wavelength --> Lowest Frequency
- Short Wavelength –> Highest Frequency
- The higher the frequency, the higher the energy.

## Wavestown
- An illustrated cartoon showing the different types of electromagnetic waves, represented as buildings in a town called Wavestown.
- **RAYSTV:** Radio waves.
- **Wavesgrill:** Microwaves.
- **PHOTOGRAPHIES:** Infrared rays.
- **NUCLEAR MEDICING:** Gamma rays.
- An illustrated diagram of a wave showing the following labels: 3cm, 0.3cm, 300m, 30m, 3mm, 0.3m, 30μm, 3μm, 0.3μm, 30nm, 3nm, 0.3nm, 30pm, 3pm, 0.3pm, 30fm, 3fm, 0.зfm, 23mm, 1, 2, 3, 4, 5, 6, 7.

- **Antennas and Wave Propagation 1: Dr. Steven Stanford**
- **Lecture 01**