It's really quite simple actually...
They lie right between the electro-convulsive synapse, and the photo-ludacritic cleft. It's a very delicate balance, even the slightest amount of refractive shift micteration and the whole spectratic waveform becomes unrecognizable to even the swiftest of retinal sphincters.
Microwaves are found to the left of infrared in the spectrum.
Microwave is higher frequency than radio and lower frequency than IR.
lower frequency end, between about 100KHz to about 1GHz.
Microwaves are in the UHF portion of the spectrum. Typical frequencies are above 100 GHz.
The microwaves range is between infrared radiation and radio waves: approx. 1 mm - approx. 1 m.
2nd last, infront of radiowaves
Ultraviolet is found just beyond violet.
between radio and IR.
In a microwave oven, we find that microwave energy (from the microwave portion of the electromagnetic spectrum) are used. In a conventional oven, gas or electricity is used to create infrared heat, so we find infrared radiation (from the infrared portion of the electromagnetic spectrum, which is just below the visible light or optical portion) used there. If the oven happens to be a combination microwave and conventional, we'll find both types of electromagnetic waves generated for use inside.
the electromagnetic spectrum
The electromagnetic spectrum is the range of all possible frequencies of electromagnetic radiation.[1] The "electromagnetic spectrum" of an object is the characteristic distribution of electromagnetic radiation emitted or absorbed by that particular object.
The electromagnetic spectrum is the range of all possible frequencies of the electromagnetic radiation. The ELECTROMAGNETIC SPECTRUM of an object is the characteristic distribution of electromagnetic radiation emitted or absorbed by that particular object.The components of the electromagnetic spectrum are :a) Radio frequencyb) Microwave through far infraredc) Near infraredd) Visiblee) Ultravioletf) X Raysg) Gamma Raysh) High Energy Gamma Rays.
The electromagnetic spectrum.
this is radiation in the microwave part of the electromagnetic spectrum which comes from all directions in outer space
Electromagnetic radiation, in the microwave portion of the radio spectrum.
Radio waves in the microwave section of the EM spectrum.
"Color" is a way of describing how an object interacts with electromagnetic radiation in the visible region of the spectrum. This has no impact whatsoever on how it interacts with electromagnetic radiation in the microwave region of the spectrum. So, no, they don't.
Cosmic rays are not part of the EM spectrum -- they are high energy charged particles.
a microwave is an electromagnetic wave.================Answer #2:A microwave is a radio wave with a wavelengthless than 10 cm (frequency greater than 3 GHz).
the energy that makes the electromagnetic spectrum is electromagnetic radiation
Most stars and many other objects in space emit radio and microwave radiation. Even the big bag emitted electromagnetic radiation.
In a microwave oven, we find that microwave energy (from the microwave portion of the electromagnetic spectrum) are used. In a conventional oven, gas or electricity is used to create infrared heat, so we find infrared radiation (from the infrared portion of the electromagnetic spectrum, which is just below the visible light or optical portion) used there. If the oven happens to be a combination microwave and conventional, we'll find both types of electromagnetic waves generated for use inside.
the electromagnetic spectrum
No, The electromagnetic spectrum is the range of all possible frequencies of electromagnetic radiation.[1] The "electromagnetic spectrum" of an object is the characteristic distribution of electromagnetic radiation emitted or absorbed by that particular object.
The amount of radiation changes across the spectrum.