X-ray telescopes collect the X-rays that are emitted from the sun, stars, and super novas in space using a series of curved lenses and an electronic eye.
those are kinds of telescope!:)
The primary infrared blocker, water vapor, is mostly in the lower atmosphere and the primary ultraviolet blocker, ozone, is located high in the atmosphere, far above mountaintops.
There is a large amount of specific - NEW -information about the goings-on in the Cosmos. Each type of answer to this Question has a huge NASA project associated with it! Infra-red is IRAS, ultraviolet, radio waves, X-rays, Gamma-ray bursts - each has its own astounding collection of new discoveries.There are many telescopes that detect energy outside the visible spectrum. Some of the telescopes include infrared, Fresnel imagers, ultraviolet, and submillimetre telescopes.No, some telescopes are designed to work with ultraviolet, infrared, microwaves, radio waves, or even gamma rays.Well several telescopes detect invisible em radiations.. terrestrial telescopes in clude all Radio telescopes.. also there are several space telescopes which make observations in the invisible region of the em spectrum. eg. Chandra x-ray telescope, XMM- Newton, even Hubble space telescope (UV region).
Radio telescopes and infra-red telescopes operate at longer wavelengths/lower frequencies than visible light. Ultraviolet telescopes operate at shorter wavelengths/higher frequencies than visible light.
Telescopes that work with visible light, as opposed to other radiations such as infrared, ultraviolet, x-rays, etc.
Telescopes that work with visible light, as opposed to other radiations such as infrared, ultraviolet, x-rays, etc.
Ultraviolet telescopes are similar to optical reflecting telescopes, but their mirrors have special coatings that reflect ultraviolet light very well. Ultraviolet telescopes provide much information about interstellar gas, young stars, and the gaseous areas of active galaxies.
Researchers use all of these: -- optical telescopes -- radio telescopes -- x-ray telescopes -- infra-red telescopes -- ultraviolet telescopes
those are kinds of telescope!:)
The photosphere can be seen with visible-light telescopes, while the chromosphere is most easily observed with ultraviolet telescopes and the corona with X-ray telescopes.
The primary infrared blocker, water vapor, is mostly in the lower atmosphere and the primary ultraviolet blocker, ozone, is located high in the atmosphere, far above mountaintops.
DO NOT LOOK AT THE SUN WITH A CONVENTIONAL TELESCOPE. Doing so can cause massive eye damage and blindness. Theoretically only the photosphere would be visible anyway.Scientists can use special telescopes (such as ultraviolet telescopes) to see other parts of the sun (such as the corona).
There is a large amount of specific - NEW -information about the goings-on in the Cosmos. Each type of answer to this Question has a huge NASA project associated with it! Infra-red is IRAS, ultraviolet, radio waves, X-rays, Gamma-ray bursts - each has its own astounding collection of new discoveries.There are many telescopes that detect energy outside the visible spectrum. Some of the telescopes include infrared, Fresnel imagers, ultraviolet, and submillimetre telescopes.No, some telescopes are designed to work with ultraviolet, infrared, microwaves, radio waves, or even gamma rays.Well several telescopes detect invisible em radiations.. terrestrial telescopes in clude all Radio telescopes.. also there are several space telescopes which make observations in the invisible region of the em spectrum. eg. Chandra x-ray telescope, XMM- Newton, even Hubble space telescope (UV region).
it gives you rays that help your bones and teeth grow
Radio telescopes and infra-red telescopes operate at longer wavelengths/lower frequencies than visible light. Ultraviolet telescopes operate at shorter wavelengths/higher frequencies than visible light.
Scientists have developed a number of radio, infrared, ultraviolet, and X-ray telescopes.
they did it to get more detailed pictures of space