1. Microscopy - an introduction
Microscopes are instruments designed to produce magnified visual or photographic images of small objects.
The microscope must accomplish three tasks
1. produce a magnified image of the specimen
separate the details in the image,
render the details visible to the human eye or camera.

2. Microscopes increase resolution - minimum distance two points can be apart and still be distinguished as two separate points

3. History of the Microscope
1590 –first compound microscope by Hans and Zacharias Janssen of Holland

4. History of the Microscope
1655 – Robert Hooke used a compound microscope to observe pores in cork
He called them “cells”

6. History of the Microscope
Antoine van Leeuwenhoek
1st to see single-celled organisms in pond water

7. Scale

8. Microscope
One or more lenses that make an enlarged image of an object.

9. Eyepiece Body Tube Revolving Nosepiece Arm Objective Lens Stage
Stage Clips
This is the exact version of the microscope used in class. Students will be identifying the parts on the microscopes at their desks as we go along and what their functions are.
Coarse Focus
Diaphragm
Fine Focus
Light
Base *

10. Simple Microscope Light passes through only 1 lens.
Example: magnifying glass

11. Compound Microscope
Lets light pass through an object and then through two or more lenses.

12. Stereoscopic Microscope
Gives a three dimensional view of an object. (Examples: insects and leaves)
Used for dissections

13. Electron microscopes – use a beam of electrons instead of a beam of light to magnify the image

14. Electron Microscopes
can achieve 3D images using electrons

15. The Scanning Electron Microscope
produces a 3-dimensional image of specimen’s surface features
spider
head of a butterfly

16. Scanning electron microscopy (SEM)
Types of specimens:
-Whole organisms
-Natural tissue surfaces
-Exposed tissue structure
A flea magnified X
What is this?

17. Scanning
Electron
Microscope

18. Transmission electron microscopy (TEM).
Allows the observation of molecules within cells
Allows the magnification of objects in the order of 100, 000’s.

19. Transmission electron microscope (TEM)
Provides for detailed study of the internal ultrastructure of cells
a beam of electrons
is transmitted through
the specimen for
a 2D view
Longitudinal
section of
cilium
Cross section
of cilium
1 µm
Figure 6.4 (b) cilia on rabbit lungs

20. Transmission electron microscope
Chloroplast from a tobacco leaf
H1N1 virus

21. Confocal Laser Scanning Microscope (CLSM)
laser beam used to illuminate spots on specimen
computer compiles images created from each point to generate a 3-dimensional image
used on specimens that are too thick for a light microscope

22. A, B, C pollen grains: Scanning electron microscope
D pollen grains: Confocal Laser Scanning Microscope
E pollen grains: Transmission electron microscope
F pollen grains: Light microscope
G Mixed pollen grains (bright field light microscope, stained) H pollen grains confocal laser scanning microscope

24. Magnification Your microscope has 3 magnifications: Scanning, Low and High. Each objective lens will have written the magnification. In addition to this, the ocular lens (eyepiece) has a magnification.

28. Look at the following micrographs (a picture made by a microscope) and try to determine what the object is!

29. DENTIST’S DRILL

30. TOILET PAPER

31. HYPODERMIC NEEDLE

32. VELCRO

33. STAPLE THROUGH PAPER

34. BLACK WIDOW SPIDER CLAW

35. PORCUPINE QUILL

36. MASCARA BRUSH

37. ANT

38. BLACK FLY

39. MOSQUITO

40. CAT FLEA

41. MITE FEEDING

42. POLLEN GRAIN

43. ANT EYE

44. APHID ON A LEAF

45. EYELASHES

46. DOG FLEA

47. H1N1 VIRUS

48. Always carry with 2 hands Only use lens paper for cleaning
The Light Microscope
Guidelines for Use
Always carry with 2 hands
Only use lens paper for cleaning
Do not force knobs to turn
Always store covered
Keep objects clear of desk and cords
Teacher demonstrates how to hold the microscope, where the lens paper is located and how to use it. Students will be invited to turn the knobs and observe the stage as it moves up and down. Teacher will demonstrate how to store the microscope. *

49. General Procedures
1. Make sure all backpacks and junk are out of the aisles and off the tops of desks. 
2. Plug your microscope in to the extension cords. Each row of desks uses the same cord.
3. Store with cord wrapped around microscope and the scanning objective clicked into place. 
4. Carry by the base and arm with both hands.
Give students a slide from the “common things” set, each student will practice focusing and changing objectives. *

50. 1. Always start with the scanning objective.
Focusing Specimens
1. Always start with the scanning objective. 
Odds are, you will be able to see something on this setting. Use the Coarse Knob to focus, image may be small at this magnification, but you won't be able to find it on the higher powers without this first step. 
Do not use stage clips, try moving the slide around until you find something.
Give students a slide from the “common things” set, each student will practice focusing and changing objectives. *

51. 2. Once you've focused on Scanning, switch to Low Power
2. Once you've focused on Scanning, switch to Low Power. Use the Coarse Knob to refocus. Again, if you haven't focused on this level, you will not be able to move to the next level.
3. Now switch to High Power. (If you have a thick slide, or a slide without a cover, do NOT use the high power objective). At this point, ONLY use the Fine Adjustment Knob to focus specimens.
Recap
1.  Scanning --> use coarse knob
2.  Low power --> use coarse knob
3.  High power --> use fine knob
DO NOT SKIP STEPS!!!!

52. Your slide MUST be focused on low power before attempting this step
Click the nosepiece to the longest objective
Do NOT use the Coarse Focusing Knob, this could crack the slide or the lens
Use the Fine Focus Knob to bring the slide into focus
Have students exchange slides so they can look at different things, walk them through using the high power objective to focus slides. Emphasize not using the coarse objective during this process, as it will crack the slides. *

53. Drawing Specimens
1. Use pencil - you can erase and shade areas
2. All drawings should include clear and proper labels (and be large enough to view details). Drawings should be labeled with the specimen name and magnification.
3. Labels should be written on the outside of the circle. The circle indicates the viewing field as seen through the eyepiece, specimens should be drawn to scale - ie..if your specimen takes up the whole viewing field, make sure your drawing reflects that.

54. Troubleshooting 1. Image is too dark!
Occasionally you may have trouble with working your microscope. Here are some common problems and solutions.
1. Image is too dark!
Adjust the diaphragm, make sure your light is on.
2. There's a spot in my viewing field, even when I move the slide the spot stays in the same place!
Your lens is dirty. Use lens paper, and only lens paper to carefully clean the objective and ocular lens. The ocular lens can be removed to clean the inside.  The spot is probably a spec of dust.
3. I can't see anything under high power!
Remember the steps, if you can't focus under scanning and then low power, you won't be able to focus anything under high power.  Start at scanning and walk through the steps again. 
4. Only half of my viewing field is lit, it looks like there's a half-moon in there!
You probably don't have your objective fully clicked into place..