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Microbiology Microscopy and Staining

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What is the smallest object ever seen? SPM of a Bacillus Bacterium. SPM of Coccus Bacterium ... Can other animals 'see' other parts of the EM spectrum? An Application ... – PowerPoint PPT presentation

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Title: Microbiology Microscopy and Staining


1
Microbiology-Microscopy and Staining
  • Microbiology
  • Mr. Knowles
  • Chapter 3, pp. 50-73.

2
What is the smallest object ever seen?
3
SPM of a Bacillus Bacterium
4
SPM of Coccus Bacterium
5
Carbon Atoms on Graphite
6
Neon Atoms on Nickel
7
What is light?
  • Light is visible energy!

8
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12
Can other animals see other parts of the EM
spectrum?
  • An Application
  • Video- Discovery Vipers (Pit Vipers)

13
Properties of Light
  • Wavelength and Resolution
  • Light and Objects

14
Wavelength (?)
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19
How does wavelength compare to energy?
  • An Application Video- The Blue Planet The Deep

20
Light and Wavelength
  • Length of a light ray- wavelength.
  • Usually represented by the Greek letter ?.
  • Sun produces a continuous spectrum of EM
    radiation.
  • Visible light is from about ? 420 nm (blue) to
    680 nm (red).
  • Fig 3.4, p 54.

21
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22
A. Resolution
  • Resolution - the ability to see two objects as
    separate and discrete.
  • A wavelength of light must be able to pass
    between the objects for them to be seen as
    separate.
  • Shorter the wavelength, the greater the
    resolution.

23
Resolution
  • Visible Light (? 550 nm) has a resolution of
    about 220 nm.
  • UV (? 100-400 nm) has a resolution of about 110
    nm.
  • Electron Microscopes use electrons rather than
    light, e- ? 0.005 nm, resolution of EM is about
    0.2 nm

24
B. Reflection
  • Fig. 3.7, p. 56.
  • Reflection- particular wavelengths strike an
    object and bounce back
  • Reflected wavelengths give objects color.

25
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26
C. Transmission
  • Transmission- passage of light through an object.
  • Opaque objects cannot transmit any light.

27
D. Absorption
  • Absorption- when light rays do not pass through
    nor do they bounce back, but are used when light
    rays are neither transmitted nor reflected, they
    are absorbed.

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29
What happens to the energy of absorbed light?
  • Energy from light rays can be used.
  • Green leaf absorbs all wavelengths (except green)
    for use in photosynthesis.
  • Energy from absorbed light is transformed into
    heat.
  • Ex. Black car on a hot day.

30
What happens to the energy of absorbed light?
  • Absorbed light rays are changed into longer
    wavelengths and reemitted- luminescence
  • Bacteria and other organisms can bioluminesce

31
Two Types of 1. Luminescence
  • a. If luminescence occurs after an object has
    been exposed to light - phosphorescence.

32
Deep Sea Angler Fish
33
Phosphorescent Bacteria in Lanternfish
34
Show me Phosphorescence!
  • Vibrio fischeri- a phosphorescent bacterium

35
Two types of 1. Luminescence
  • b. If luminescence occurs only while light rays
    are striking an object - fluorescence.

36
Fluorescent Methanosarcina Bacterium
37
Use of Fluorescent Antibodies to Stain Cells
(Bovine Pulmonary Arterial Endothelial Cell)
38
Show me Fluorescence!
  • Pseudomonas fluorescens- a fluorescent bacterium

39
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40
An Application of Refraction
  • Video Built for the Kill- River

41
E. Refraction
  • Refraction- bending of light as it passes from
    one medium to another of a different density.
  • Index of Refraction- a measure of the speed at
    which light passes through a material.

42
A Magic Trick!
  • Using the physics of light to make money!
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