A refracting telescope uses a lens (or for most refractors today, 2 or more lenses) to bend the wavelengths of visible light to a focal point as a means of collecting light. The light is then focused using an eyepiece. Depending on the focal length of the eyepiece, the effective magnification of a telescope can be altered.
A curved mirror is used to focus light in a reflecting telescope by reflecting and converging the light rays to a focal point. This mirror can have a concave shape to collect and concentrate light towards the eyepiece for observation.
The reflecting telescope deals with light. It uses mirrors to gather and focus incoming light from distant celestial objects for observation. Sound waves are not used in reflecting telescopes.
A reflecting telescope gathers light with a mirror instead of a lens. The mirror reflects light to a focus point where the image is formed. This design eliminates chromatic aberration that can occur with lenses.
Radio telescopes, refracting telescopes, and reflecting telescopes all use mirrors or lenses to collect and focus incoming electromagnetic radiation. The main difference is the wavelength of the radiation they are designed to study – radio telescopes focus on radio waves, refracting telescopes focus on visible light, and reflecting telescopes focus on a variety of wavelengths including visible light, ultraviolet, and infrared.
Reflecting Telescopes -uses a single or combination of curved mirrors to bring light to a focus and make an image.
A curved mirror is used to focus light in a reflecting telescope by reflecting and converging the light rays to a focal point. This mirror can have a concave shape to collect and concentrate light towards the eyepiece for observation.
A reflecting telescope forms an image by using a combination of curved mirrors to focus light. It was invented as an alternative to the refracting telescope.
The reflecting telescope deals with light. It uses mirrors to gather and focus incoming light from distant celestial objects for observation. Sound waves are not used in reflecting telescopes.
A reflecting telescope gathers light with a mirror instead of a lens. The mirror reflects light to a focus point where the image is formed. This design eliminates chromatic aberration that can occur with lenses.
In front of the mirror
A reflecting telescope.
the reflecting telescope uses mirrors and lenses. The refracting telescope does not include the mirrors.
Radio telescopes, refracting telescopes, and reflecting telescopes all use mirrors or lenses to collect and focus incoming electromagnetic radiation. The main difference is the wavelength of the radiation they are designed to study – radio telescopes focus on radio waves, refracting telescopes focus on visible light, and reflecting telescopes focus on a variety of wavelengths including visible light, ultraviolet, and infrared.
A reflecting telescope uses mirrors while refracting telescopes uses lens. The refracting telescope also had chromatic aberration and bad resolution while the reflecting telescope had none of these.
Reflecting Telescopes -uses a single or combination of curved mirrors to bring light to a focus and make an image.
Refracting telescope: Brings light to a focus by passing it completely through a transparent glass lens.The lens must be perfect throughout, and unobstructed.Reflecting telescope: Brings light to a focus by reflecting it from the surface of a curved mirror.The surface shape must be perfect, but the mirror may be made of anything, and can be supportedby anything.
Isaac Newton is credited with building the first practical reflecting telescope in 1668. This telescope used a curved mirror to gather and focus light, unlike traditional refracting telescopes which used lenses.