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The vast majority of astronomical telescopes are reflectors.
• Mirrors can be made that are much larger than lenses. Of presently operating astro scopes, the largest refractor is the 40" one at the Yerkes Observatory. The largest operating single-mirror reflector is the 238" BTA-6 in the Caucasus Mountains of Russia, which is almost six times larger than the Yerkes unit.
• Unlike lenses, telescope mirrors can be segmented. The Keck telescopes in Hawaii each have 36 hexagonal segments equivalent to single mirrors 400" in diameter. There is no theoretical limit to how big such telescopes can be.
• The mass of a lens is much higher than a comparable mirror, and the difficulty of manufacturing a huge chunk of glass to the exacting specifications needed for astronomy is close to insurmountable.
• With a lens, all incoming light must pass though it, requiring that both surfaces be machined as precisely as possible and the glass must be free of optical imperfections. Glass also attenuates the light. With a mirror, incoming light is reflected from its polished surface. Light does not go through it, so aside from the curved reflecting surface, there are no tight specifications for the rest of the mirror and its mount. And mirrors don't absorb light.
• Glass bends light differently depending on wavelength. A single lens cannot be made that will precisely focus all colors of light at one plane -- blue light focuses closer to the lens than red light. The effect can be minimized by using a long focal length so the light isn't bent as drastically. The Yerkes scope uses a 60-foot tube for that reason. Compound or "doublet" lenses made of different kinds of glass -- typically crown and flint glass -- can account for most of the chromatic aberration, but that adds a lot of mass to the lens.
• Because of that problem with refractors, reflector telescopes can be much shorter than equivalent refractors, and can fit into smaller observatory domes.
• In a refracting telescope, the objective lens is out at the front end of the telescope, meaning that the heavier it is, the harder it is to design a telescope that will keep it rigid and aligned, and move it easily and exactly.
• Very large lenses tend to sag from the weight of the glass, introducing distortion. Large mirrors can also sag. The difference is that lenses can be supported only around their edges, whereas mirrors can be supported by their entire back surfaces, and thus are far less susceptible to sag. Lenses much larger than the Yerkes 40" would experience unacceptable sag for astronomical purposes.
• For astronomical telescopes, lenses are considerably more expensive than equivalently-sized mirrors.
For terrestrial uses such as spotting scopes and binoculars, lenses will not be replaced any time soon.
What else can I help you with?
Reflecting telescopes differ from refracting telescopes in having?
Reflecting telescopes use mirrors to gather and focus light, while refracting telescopes use lenses. Reflecting telescopes tend to be more compact and easier to support larger apertures, making them popular for professional astronomical research. Additionally, reflecting telescopes are less affected by chromatic aberration compared to refracting telescopes.
What are reflecting and refracting telescopes designed for?
Light is found by reflecting telescopes and refracting telescopes are used to dected sound
How are reflecting and refracting telescopes different?
Reflecting telescopes use mirrors to collect and focus light, while refracting telescopes use lenses. Reflecting telescopes typically have a closed tube design which protects the mirrors from dust and other contaminants, while refracting telescopes are more prone to chromatic aberration. Reflecting telescopes are generally easier to manufacture at larger sizes compared to refracting telescopes.
Why are most modern telescopes reflecting telescopes?
Most modern telescopes are reflecting telescopes because reflecting telescopes are generally more cost-effective and easier to build at larger sizes compared to refracting telescopes. Reflecting telescopes also suffer less from chromatic aberration and can have a simpler design with fewer optical elements.
Compare reflecting and refracting telescopes?
Reflecting telescopes use mirrors to collect and focus light, while refracting telescopes use lenses. Reflecting telescopes are typically less affected by chromatic aberration, while refracting telescopes can be more prone to this issue. Reflecting telescopes are generally more cost-effective for larger apertures.
Reflecting telescopes differ from refracting telescopes in having?
Reflecting telescopes use mirrors to gather and focus light, while refracting telescopes use lenses. Reflecting telescopes tend to be more compact and easier to support larger apertures, making them popular for professional astronomical research. Additionally, reflecting telescopes are less affected by chromatic aberration compared to refracting telescopes.
What are reflecting and refracting telescopes designed for?
Light is found by reflecting telescopes and refracting telescopes are used to dected sound
How are reflecting and refracting telescopes different?
Reflecting telescopes use mirrors to collect and focus light, while refracting telescopes use lenses. Reflecting telescopes typically have a closed tube design which protects the mirrors from dust and other contaminants, while refracting telescopes are more prone to chromatic aberration. Reflecting telescopes are generally easier to manufacture at larger sizes compared to refracting telescopes.
How are refraction telescopes and reflecting telescopes similar?
they the same
Why are most modern telescopes reflecting telescopes?
Most modern telescopes are reflecting telescopes because reflecting telescopes are generally more cost-effective and easier to build at larger sizes compared to refracting telescopes. Reflecting telescopes also suffer less from chromatic aberration and can have a simpler design with fewer optical elements.
Compare reflecting and refracting telescopes?
Reflecting telescopes use mirrors to collect and focus light, while refracting telescopes use lenses. Reflecting telescopes are typically less affected by chromatic aberration, while refracting telescopes can be more prone to this issue. Reflecting telescopes are generally more cost-effective for larger apertures.
Reflecting telescopes are popular because they're than a refracting telescope?
Reflecting telescopes are popular because they are generally more compact and can be built in larger sizes without the issues of chromatic aberration that affect refracting telescopes. They use mirrors instead of lenses, which allows for a simpler design and easier manufacturing of large apertures. Additionally, mirrors can be supported from behind, reducing the risk of distortion that occurs with heavy lenses. Overall, these advantages make reflecting telescopes more versatile and effective for astronomical observations.
Is refracting telescopes bigger then reflecting telescopes?
Not necessarily. Refracting telescopes can be large, but reflecting telescopes can also be quite large and often have larger apertures due to their design. The size of a telescope depends on its purpose and design specifications rather than whether it is refracting or reflecting.
What is better Reflecting or refracting telescopes?
The most serious astronomical research, such as that done by the Hubble Space Telescope, is done with reflecting telescopes.
Russia is given credit for building the largest of these telescopes in 1974?
reflecting telescopes
Are celestron telescopes reflecting telescopes?
They have many other different types of telescopes than just reflecting!!!! I have a refracting telescope myself. They also have other things like binoculars and microscopes
Reflecting telescopes differ from refracting telescopes in having what?
Two large objective lenses.
