![]() The largest known is 20 m, with a 1 m wide objective lens. 1) consists of a converging lens (plano-convex or biconvex) serving as objective, and a diverging lens (plano-concave or biconcave). To get a good magnification you need an objective lens with a very long focal length. They do not transmit 100 % of the light some is lost (absorbed/reflected). They refract light of different colours by different amounts. Magnification can also be shown to be related to the focal lengths of theį o is the focal length of the objective lens andį e is the focal length of the eyepiece lens Disadvantages of using lenses in a telescope: The angle to the axis of the ray leaving the telescope is β.Īngular magnification can be worked out by the simple formula:Īngle α is the angle subtended by the object to the unaided eye.Īngle β is the angle subtended by the image to the eye. The observer traces the rays entering his/her eye back to infinity to form an inverted, virtual image of the original object.Ī ray arrives at the objective at a small Rays emerge from the eyepiece and enter the eye of the observer. Light from the intermediary image spreads out until it meets the eyepiece and forms an image at infinity - parallel Is set so that the intermediary image is the focal length away from its principal focus F e. Each ray exits the lens at a different angle. The 3 rays then pass through a glass lens. Each ray hits a mirror and is reflected off at 90 degrees. Lens.There it forms an intermediary real inverted image. The ray diagram in the picture shows 3 'rays' of light entering the telescope. It will therefore be longer than a less powerful one.įrom a distant object meet at the principal focus F o of the objective A very powerful telescope will have a big objective lens focal length. Note that the length of the telescope is then set at the sum of the focal lengths of the two lenses. Magnification - the ratio of the angle subtended by the image of the object when using the instrument to view it, to the angle subtended at the eye of the observer when viewing the object without that instrumentĭiagram shows the telescope when it is set up in normal adjustment - that means to view an object at infinity, therefore the focal point of both the eyepiece lens and the objective lens are set to coincide (see diagram below). Lens can resolve detail nine times better than a 4 cm lens - area depends on the square of the diameter. the curvature of the lens must be perfectly part of a sphere and the density of the glass uniformĭiameter - brightness and detail observed depends on the surface area of the lens. Quality - poor quality lenses produce a poor image ![]() ![]() The object so that the eyepiece lens can act as a magnifying glass and produce an enlarged image of the objective lens's image!įollowing factors are important in making a good quality instrument: The objective lens makes a small real image of The refracting telescope works by bending A Level and AS level - UK KS 5 (Age 16 - 18).GCSE and 'O' Level - UK KS4 (Age 14 - 16). ![]()
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