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A form of electromagnetic energy. Sources of high energy radiation around. The features related to the electromagnetic wavelength (l) can be measured in nanometer (nm) or micrometer (mm) and.(F), which is measured in hertz (hz) by two features are related through the speed of light is c = fl
.Wave energy Considering the intensity of the task force. Or flux of radiation (in units of energy per unit time per unit area = joule s-1 m-2 = watt m-2), which can be measured by the intensity of articulation (radiance) or intensity incident. (Irradiance)
The gamma radiation (gamma ray: l <0.1 nm) and the radiation (x-ray: 0.1 nm Ultraviolet range Is a high energy Dangerous to cellular creatures
wavelengths. A wavelength that the human eye can perceive. Consists of violet light Down to the red light
.Infrared As the waves are low energy. The human eye can not see classified into short-wave infrared. And infrared heat waves
near infrared (nir) wavelengths are in the range between 0.7 to 1.5 μm.
.short wavelength infrared (swir) wavelengths are in the range between 1.5 to 3 μm.
mid wavelength infrared (mwir) wavelengths are in the range between 3 to 8 μm.
long wavelength infrared (lwir) wavelengths are in the range between 8 to. 15 μm.
far infrared (fir) wavelength is greater than 15 μm.
range radio frequency (radio wave) is the wave caused by the vibration of the crystal due to an electric field. Or caused by electrical depolarization. In the microwave Have a unique name, such as
.p band frequencies in the range 0.3 - 1 ghz (30 - 100 cm)
l band frequency in the range of 1 - 2 ghz (15 - 30 cm)
s band frequencies in the range of 2 - 4 ghz (7.5 - 15 cm).
c band frequencies in the range of 4 - 8 ghz (3.8 - 7.5 cm)
x band frequency in the range of 8 - 12.5 ghz (2.4 - 3.8 cm)
ku band frequency in the range of 12.5 - 18 ghz (1.7 - 2.4 cm)
k band frequencies in the range 18 - 26.5 ghz (1.1 - 1.7 cm)
ka band frequencies in the range of 26.5 - 40 ghz (0.75 - 1.1 cm
.Wavelength and intensity of electromagnetic waves. Depending on the temperature of the radiation source like the sun, with temperatures 6.000 k is radiating energy in the infrared, most objects on the ground, most will have a temperature of about 300 k to radiate infrared energy to heat the most. When electromagnetic waves travel through the ionosphere Air molecules areTo make waves and transverse waves scattering away. The impact was the object wave is reflected back. And travel through the atmosphere comes fall wave measuring device
.Because objects Features reflect the electromagnetic waves are not the same, so we can use electromagnetic waves to explore the remote.Similarly, the ability to reflect light of different objects. On earth can be summarized as follows:
.Water reflects light in the blue light well. And absorbance over the other. And notice that the water is absorbed wave ir 0.91 mm during this period very well
soil reflectance wavelengths well every color
.Plant the green light as well. And reflect infrared light, water and soil much better
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Electromagnetic waves as a model to take the case, there was a source of high energy radiation to surrounding property are related to electromagnetic wave is the wavelength (l) may be measured in nanometer (nm), or micrometer (mm) and. (F), which is measured in hertz (Hz), the two properties have relationships through the up-speed of light. In Figure c fl =
The power of the waves. Considering the intensity of the flux or radiation (energy per unit time per unit area in unit = s-1 m-2 m-2 = Joule watt) which can measure the intensity of emitted (radiance) or intensity (irradiance) affects the
.Range of gamma radiation (gamma ray: 0.1 l < nm) and x-ray (x-ray: 0.1 nm 300 nm l < <) is an interval with high energy radiation from nuclear reactions or radioactive substances from
.Ultraviolet range is a range that has a high energy Celtic harming living things is light wave range
spectrum of human perception is composed of purple light to chase down until the red light
.The infrared range is a range of low energy wave. The human eye cannot see classified as infrared heat waves, infrared and shortwave Near Infrared (NIR)
. The wavelength in the range of between 0.7 to 1.5 µm.
.Short Wavelength Infrared (SWIR) wavelength is 3 µm to 1.5 during the Mid Infrared Wavelength.
(MWIR) wavelength is 3 to 8 µm during the Long Wavelength Infrared.
(LWIR) wavelength is between 8 to 15 µm.
.Far Infrared (FIR), the wavelength is greater than 15 µm.
range radio waves (radio wave) is a wave caused by a tremor of crystals is due to receive electric or caused by switch electrical connectors. For microwave range, unique names, such as
.P band of frequencies in the range of 0.3-1 GHz (30-100 cm)
L band frequencies in the range of 1-2 GHz (15-30 cm)
S band frequencies in the range of 2-4 GHz (7.5-15 cm)
C band frequencies are in the range 4-8 GHz (3.8-cm 7.5)
X band frequencies in the range of 8-12.5 GHz (2.4-3.8 cm)
Ku band frequencies in the range of 12.5-18 GHz (1.7-2.4 cm)
K band frequency range 18-26.5 GHz (1.1-1.7 cm)
Ka band frequencies in the range of 26.5-40 GHz (0.75-1.1 cm
.The length of the wave range and intensity of electromagnetic waves. Depending on the temperature of electromagnetic origin, such as the Sun. 6 temperature,0 K is radiating energy in the range of light waves. Various objects on the surface of the Earth with the temperature around 300 K will radiate energy in the infrared range, most of the heat. Electromagnetic waves travel through the atmosphere, the air molecules. And the extensive making waves krachoeng waves. The wave that hit was the object will reflect back and travel through the atmosphere to fall to the measuring device wave
.Because different objects have properties to reflect electromagnetic waves range, which is not the same, so we can use the electromagnetic surveying remotely. Each reflective ability of various objects on the surface of the earth can be summarized as follows:
.Reflective water during the light blue and the other in waves suck and give notice that water will absorb the waves IR range 0.91 mm during this period was very good
reflective light waves in soil well all colors
.Reflective green range plants well and reflect infrared range, better and more
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electromagnetic waves are a form of transfer energy from a source that has a high energy radiation from around the features that are related to electromagnetic waves are Wave length (L), which can be measured as a nanometer (NM) or micrometer (mm) and(f) which is measured in hertz (Hz) by both features are the relationship through the light speed in the form C = FL
.waves of energy are considered to be the strength of the electrode or the radiation (energy consumption per unit time per unit area = Joule s - 1 M - 2 M = watt - 2), which may be measured by the intensity of utter out (radiance) or the intensity of fall (irradiance)
The gamma rays (gamma ray: L <0.1 nm), and the export radiation (X-ray: 0.1 NM During the ultrasound sensitivity, as a range of high energy is harmful to the organisms
during the light waves are the waves that human eye perception. With light purple to chase down to red light
The infrared waves that are in the low-energy human eyes could not see classified as short wave infrared and infrared heat waves
Near Infrared (NIR) Wave length will be in the range between 0.7 to 1.5 µm.
Short Wavelength Infrared (SWIR) Wave length will be in the range between 1.5 to 3 µm.
Mid Wavelength Infrared (MWIR) Wave length will be in the range between 3 to 8 µm.
Long Wavelength Infrared (LWIR) Wave length will be in the range between 8 and 15 µm.
Far Infrared (FIR) Wave length will be more than 15 µm.
the radio waves (Radio wave) as the waves caused by the vibration of the crystal, as it is caused by the switch or electrical power connectors for the microwave, there is a specific name such as
P band frequency is in the range 0.3 - 1 GHz (30 - 100 cm)
L band frequency is in the range 1 - 2 GHz (15 - 30 cm)
S band frequency is in the range 2 - 4 GHz (7.5 - 15 cm)
C frequency band in the range 4 - 8 GHz (3.8 - 7.5 cm)
X frequency band in the range 8 - 12.5 GHz (2.4 - 3.8 cm)
Ku frequency band in the range 12.5 - 18 GHz (1.7 - 2.4 cm)
K frequency band in the range 18 - 26.5 GHz (1.1 - 1.7 cm)
Ka frequency band in the range 26.5 - 40 GHz (0.75 - 1.1 cm
.The length of the waves, and the intensity of electromagnetic waves is dependent on temperature sources such as the sun has a temperature electromagnetic waves 6.000 K will radiate energy in the light waves most objects on the earth. There will be about 300 K temperature energy will be spread out over the infrared heat most electromagnetic waves when traveling through air molecules will be setting.and across the waves, blue funk wave wave out to the private sector is an object will reflect back and go through a floor, who fell into the waves measure
as objects of the reflected electromagnetic waves that are not the same as the range of frequencies, so we can use electromagnetic waves to explore from a distance.Together, the ability to reflect the light of objects on the earth can be summarized as follows:
water reflecting the light in the blue light waves in the range is good, and other specific absorption, and noticed that the water will be absorbed during the waves IR 0.91 mm in this range. Very good land
mirror in the light waves are all good color
The green plants reflect the light is good, and the infrared reflecting better than water, and more land