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Telescopes and Microscopes. Question: When you look through the converging eyepiece of a telescope, you see an enlarged image of a distant object. If.

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Presentation on theme: "Telescopes and Microscopes. Question: When you look through the converging eyepiece of a telescope, you see an enlarged image of a distant object. If."— Presentation transcript:

1 Telescopes and Microscopes

2 Question: When you look through the converging eyepiece of a telescope, you see an enlarged image of a distant object. If you replace the eyepiece with one having more curvature and a shorter focal length, will the image you see appear larger or smaller?

3 Magnifying Glasses If the object distance is less than the focal length, no real image forms on the far side of the lens The image distance is a negative number! There still is an image, a virtual image The virtual image forms on object-side of lens

4 Virtual Images Virtual images are –upright –larger than the object –more distant than the object Images are magnified The shorter the focal length of the lens, –the closer the object must be –the smaller the region on the object that is viewed –the more the magnification of the object

5 Refracting Telescopes One converging lens form a real image A second converging lens forms a virtual image of that real image Virtual image is highly magnified view of object, but inverted and flipped right-to-left

6 Question: When you look through the converging eyepiece of a telescope, you see an enlarged image of a distant object. If you replace the eyepiece with one having more curvature and a shorter focal length, will the image you see appear larger or smaller?

7 Mirrors 1 Flat mirror forms virtual image Virtual image is similar to the object

8 Mirrors 2 Concave mirror forms virtual image of near object Virtual image is –upright –larger than object –more distant than object

9 Mirrors 3 Concave mirror forms real image of distant object Real image is –Inverted and flipped left-to-right –Smaller or larger than object –On object side of mirror

10 Mirror Telescopes A concave mirror forms a real image A converging lens forms a virtual image of that real image Virtual image is highly magnified view of object, but inverted and flipped right-to-left

11 Comparison Refracting telescopes –Require clear glass parts –Require achromatic multi-element lenses Mirror telescopes –Require stable but not necessarily transparent parts –Do not have any dispersion problems Most small telescopes are refractors Most large telescopes are reflectors

12 Why Large Telescopes Large aperture yields bright images Diffraction limits resolution of telescope –Light travels as a wave –Passing through an aperture truncates wave –Wave spreads following truncation –Image points are smeared out Larger aperture yields less diffraction

13 Microscopes Just like telescopes, except the object distance is much, much less than the image distance First lens projects a real image Second lens acts as a magnifying glass to examine the real image

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