Post on 26-Dec-2015
Objectives
• To know the general types of telescopes and the advantages and disadvantages of each one.
• To know the primary parts and functions of each part of a telescope.
• To know the importance of the diameter of the objective and to know how the magnification of a telescope is related to the focal lengths of the objective and eyepiece.
• To know the advantages and disadvantages of earth and space-based telescopes.
History
• invented by Dutch lens maker Hans Lippershey in 1608• Galileo: small 30X scope • Observed the moon and “began” the modern age of
Astronomy where measurement was more important than philosophy
• moons orbiting Jupiter• phases of Venus• craters on the moon• sunspots
Galileo noticed
This was strong evidence that Copernicus was right although Galileo wasn’t willing to die for it.
How a telescope works
• gathers light through the objective (mirror or lens)– bigger is better because it gathers more light– ability to see faint objects increases proportionally with
the square of the radius of the objective• focuses light• viewed through an eyepiece (changing the
eyepiece changes the magnification)• magnification is the ratio of the focal length of the
objective to the focal length of the eyepiece
General types of telescopesRefracting
• Refracting (objective is a lens)– Galilean
• Concave eyepiece • Right-side-up image
– Astronomical• Convex eyepiece• Up-side-down image
General types of telescopesReflecting
• Catadioptrics– uses mirrors and lenses– Schmidt-Cassegrain– Maksutov-Cassegrain
Advantages and Disadvantages of Refractor
• Easy to use and reliable• Excellent for lunar, planetary
and binary star observing especially in larger apertures.
• Better resolution because there is no secondary mirror or diagonal obstruction.
• Sealed optical tube reduces image degrading air currents and protects optics.
• More expensive per inch of aperture because it is difficult to make perfect lens
• Heavier, longer and bulkier than equivalent aperture Newtonians and catadioptrics.
• Small apertures therefore less suited for viewing small and faint deep sky objects.
• Color aberration due to colors of light bending different amounts and glass acts as a filter.
Advantages and disadvantagesof Reflectors
• Lowest cost per inch of aperture
• Reasonably compact and portable
• Excellent for faint deep sky objects such as remote galaxies, nebulae and star clusters.
• Low in optical aberrations.• Able top reflects all types of
light
• Open optical tube design allows image-degrading air currents and air contaminants
• More fragile and needs realignment• Slight light loss due to secondary
obstruction when compared with refractors.
Catadioptric telescopes
• Best all-around, all-purpose telescope design. Combines the optical advantages of both lenses and mirrors while canceling their disadvantages.
• Sharp images over a wide field.• Excellent for deep sky observing or astrophotography with
fast films or CCD’s.• Very good for lunar, planetary and binary star observing or
photography.• Closed tube design reduces image degrading air currents.• Most are extremely compact and portable.• Large apertures at reasonable prices and less expensive
than equivalent aperture refractors.
Problems with earth-based telescopes
• Earth’s atmosphere reflects certain wavelengths– x-rays, gamma rays and most UV light is not
transmitted by our atmosphere
• Earth’s atmosphere blurs images– the bending of light by the atmosphere depends on the
temperature of the “air”– “twinkling” (shimmering) effect
• “Light pollution”• Solution? Put the telescope in space.
Disadvantages of space-based telescopes
• Expensive to launch and maintain• Difficult to repair• Low lifetime
Examples of space-based telescopes
• Hubble Space Telescope– 3 times better resolution– can see fainter objects
• Chandra X-ray Observatory• Compton Gamma-Ray Observatory