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Title: Rehana Jamal


1
Dated 29/10/14
Lecture 2 P1
Database Management System Applications of
Remote sensing and GIS
Subject
Topics
Characteristics of Electromagnetic
radiation Wavelength regions of
electro-magnetic radiation
Presented by Rehana Jamal
2
Characteristics of Electromagnetic radiation
Electromagnetic Energy can be modelled in two
ways i. By waves ii. By Photons(Energy bearing
particles)
Electromagnetic waves consist of a combination of
oscillating electrical and magnetic fields,
perpendicular to each other.
Distance
Velocity of light, c
3
Characteristics of Electromagnetic radiation
  • It can travel through empty space.
  • The speed of light is constant in space.
  • A wavelength Distance between crests or troughs
    through visible light
  • Velocity 186,000 miles per second or300,000
    kilometers per second or 299,790,000m/s or 3108
    m/s
  • Amplitude The amplitude of electromagnetic waves
    relates to its intensity or brightness(as in the
    case of visible light)
  • Frequency
  • The number of crests of the waves that pass by a
    point per second.
  • Measured in units of hertz(Hz)
  • 1 hertz 1 wave crest/second

4
/ Crest
Velocity of light, c
5
Thus, there is an inverse relationship between
wavelength and frequency
6
Relation between the speed of light (c),
wavelength ( ), and frequency (f or V )
Thus (frequency f/V wavelengthlambda) is
equal to a constant (c)
7
Sources of electromagnetic radiation
  • Sources of long wavelengths
  • Sources of visible light
  • Sources of short wavelength
  • Detectors of electromagnetic radiation

8
Note the trends bluer light has shorter
wavelength, higher frequency, and more energy.
Redder light has longer wavelength, lower
frequency, and less energy.
9
The unit of length chosen to describe a
particular wavelength is typically dependent on
the type of electromagnetic radiation
Unit Symbol Length (m) Type of Radiation
Angstrom Å 10-10 X-ray
Nanometer nm 10-9 UV, visible
Micrometer µm 10-6 Infrared
Millimeter mm 10-3 Infrared
Centimeter cm 10-2 Microwave
Meter m 1 TV, radio
10
Types of Energy Resources
  • In respect to the type of Energy Resources
  • Passive Remote Sensing Makes use of sensors that
    detect the reflected or emitted electro-magnetic
    radiation from natural sources.
  • Active remote Sensing Makes use of sensors that
    detect reflected responses from objects that are
    irradiated from artificially-generated energy
    sources, such as radar.
  • In respect to Wavelength Regions
  • Visible and Reflective Infrared Remote Sensing.
  • Thermal Infrared Remote Sensing.
  • Microwave Remote Sensing.

11
In respect to the type of Energy Resources
Passive Remote Sensing
12
In respect to the type of Energy Resources
Passive Remote Sensing
13
In respect to the type of Energy Resources
Active Passive remote Sensing
14
Wavelength regions of electro-magnetic radiation
Electro-Magnetic Spectrum (EMS)
Remote Sensing Technology makes use of the wide
range of Electro-Magnetic Spectrum (EMS) from a
very short wave "Gamma Ray" to a very long 'Radio
Wave'. Wavelength regions of electro-magnetic
radiation have different names ranging from Gamma
ray, X-ray, Ultraviolet (UV), Visible light,
Infrared (IR) to Radio Wave, in order from the
shorter wavelengths to the longer wavelengths.
15
  • Electromagnetic spectrum
  • Definition The range of wavelengths for
    electromagnetic waves--from the very long to the
    very short--is called the Electromagnetic
    Spectrum. It includes following wavelengths
    bands
  • Radio and TV waves are the longest usable waves,
    having a wavelength of 1 mile (1.5 kilometer) or
    more.
  • Microwaves are used in telecommunication as well
    as for cooking food.
  • Infrared waves are barely visible. They are the
    deep red rays you get from a heat lamp.
  • Visible light waves are the radiation you can see
    with your eyes. Their wavelengths are in the
    range of 1/1000 centimeter.
  • Ultraviolet rays are what give you sunburn and
    are used in "black lights" that make object glow.
  • X-rays go through the body and are used for
    medical purposes.
  • Gamma rays are dangerous rays coming from nuclear
    reactors and atomic bombs. They have the shortest
    wavelength in the electromagnetic spectrum of
    about 1/10,000,000 centimeter.

16
Wavelength(mm)
Name
Optical wavelengthReflective portion (i)
Visible (ii) Near IR (iii) Middle IR Far IR
(Thermal, Emissive)
0.30-15.00.38-3.00 0.38-0.72 0.72-1.30 1.30-3
.00 7.00-15.0
17
  • In respect to Wavelength Regions
  • Visible and Reflective Infrared Remote Sensing
  • Thermal Infrared Remote Sensing
  • Microwave Remote Sensing

18
(1mm)
19
Summary
20
  • References
  • www.google.com
  • www.wikipedia.com
  • Principles of Remote sensing
  • edited by Lucas L.E. Janssen

21
  • Possible Exam Questions
  • Q1. Define the following
  • Visible spectram
  • Infrared wavelength region
  • Optical wavelength range
  • Radio wave band
  • Q2.Differentiate the Passive remote sensing and
    Active remote sensing.
    5 Marks
  • Q3.Define Electromagnetic spectrum. Describe in
    detail the all wavelength regions of
    electromagnetic spectrum. 15 Marks
  • Q5.Write a not on EM spectrum. 5 Marks
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