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Lenses

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Magnifying Glass. Compound Microscope ... The eyepiece acts as a magnifying glass. The magnification of the objective is m = -i/p ... – PowerPoint PPT presentation

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Title: Lenses


1
Lenses
  • Physics 202
  • Professor Lee Carkner
  • Lecture 23

2
Refraction
  • Lenses can be used for the same purposes
  • Lenses have focal lengths and real and virtual
    images, but their properties also depend on the
    index of refraction
  • It has two sides we have to account for

3
Lenses
  • We will consider only thin lenses, i.e. thickness
    much smaller than i, p or f
  • If the two surfaces are the same, the lens is
    symmetric

4
Lenses and Mirrors
  • Mirrors produce virtual images on the opposite
    side from the object
  • Mirrors produce real images on the same side as
    the object
  • If a mirror curves towards the object, f and r
    are positive (real focus)
  • Real is positive, virtual is negative

5
Converging and Diverging
6
Converging Lens
  • A lens consisting of two convex lenses back to
    back is called a converging lens
  • The focal point is on the opposite side from the
    incoming rays
  • Converging lenses produce images larger than the
    object
  • m -i/p

7
Diverging Lens
  • A lens consisting of two concave lenses back to
    back is called a diverging lens
  • f is virtual and negative
  • Diverging lenses produce images smaller than the
    object

8
Converging and Diverging
9
Lens Equations
  • A thin lens follows the same equation as a
    mirror, namely
  • 1/f 1/p 1/i
  • 1/f (n-1) (1/r1 -1/r2)
  • Where r1 and r2 are the radii of curvature of
    each side of the lens (r1 is the side nearest the
    object)
  • For symmetric lenses r1 and r2 have opposite sign

10
Three Types of Images
11
Converging Lenses and Images
  • Objects in front of the focal point (nearer to
    the lens) produce virtual images on the same side
    as the object
  • Objects behind the focal point (further from the
    lens) produce real images on the opposite side of
    the lens

12
Diverging Lenses and Images
  • No matter where the object is, a diverging lens
    produces an upright, virtual image on the same
    side as the object
  • Virtual images form on the same side as the
    object, real images form on the opposite side

13
Three Types of Images
14
1)
15
2)
16
Two Lenses
  • To find the final image we find the image
    produced by the first lens and use that as the
    object for the second lens
  • For a two lens system the magnification is
  • M m1m2
  • In reality the lenses are not thin and may be
    arranged in a complex fashion

17
DualLenses
18
Near Point
  • How can you make an object look bigger
  • Increases angular size
  • The largest clear (unlensed) image of an object
    is obtained when it is at the near point (about
    25 cm)
  • A converging lens will increase the angular
    diameter of an object

19
Magnifying Lens
  • You can use a magnifying lens to overcome the
    limitation of your eyes near point
  • The magnification is
  • mq 25 cm /f
  • This is the size of the object seen through the
    lens compared to its size at the near point

20
Magnifying Glass
21
Compound Microscope
  • A simple compound microscope consists of an
    objective and eyepiece
  • The eyepiece acts as a magnifying glass
  • The magnification of the objective is m -i/p
  • p is very close to the focal length of the
    objective, fob
  • M (-s/fob)(25 cm/fey)
  • where s is the distance between the focal point
    of the lenses (the tube length) and f is the
    focal length

22
Microscope
23
Refracting Telescope
  • In a telescope the two lenses are placed so that
    the two inner focal points are in the same place
  • The eyepiece then magnifies the real image
  • mq -fob/fey

24
Refracting Telescope
25
Giant 40 inch Refractor at Yerkes
Observatory,Williams BayWisconsin
26
Newtonian Telescope
27
Telescopes
  • The magnification of the telescope can be altered
    by changing eyepieces
  • Magnification is not the most important property
    of a telescope
  • The true purpose of the objective lens is to
    gather more light than your eye can and focus it
    so that it can be viewed
  • The objective becomes so large it is hard to
    build and support
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