1. Compound Light Microscope
Microscopes
Compound Light Microscope
Electron Microscopes
(TEM and SEM)

2. Overview of Microscopes
Magnification – increase of an object’s apparent size
Total magnification: mag. of eyepiece x mag. of objective lens
Ex: (10X) x (4X) = 40X
Resolution (resolving power) – the distance needed to distinguish 2 points as separate
Three types of microscopes: compound light, transmission electron, scanning electron

3. Resolving Power
The human eye is capable of distinguishing objects down to a fraction of a mm. With the use of light and electron microscopes it is possible to see down to an angstrom and study everything from different cells and bacteria to single molecules or even atoms.

4. Compound Light Microscope
Specimen is enlarged as light passes through set of glass lenses
Can be used to view living specimens
Resolving power is limited to the physical character of light – up to 200 nm
Magnification up to 2000x
beyond ~2000x the image becomes
blurry

6. Transmission Electron Microscope
Cannot be used to view living specimens
Transmits a beam of electrons focused by a set of magnetic lenses through a specimen
Creates a flat image
Magnification – up to 200,000x
Resolution – up to 0.2nm

8. TEM image
Transmission electron microscope image of a human leukocyte (also known as a white blood cell), showing the Golgi apparatus, which is a structure involved in protein transport in the cytoplasm of the cell.

9. Scanning Electron Microscope:
Cannot be used to view living specimens
A narrow beam of electrons is pass over the surface of the specimen, which is coated with a thin layer of metal, producing a 3D image
Magnification up to 100,000X
Resolution – up to 10 nm

11. SEM image
A head louse clasping a human hair. The image was taken using an SEM at 110x magnification. At low magnifications like this, SEM generates three-dimensional images that are in focus throughout the depth of the sample.

12. Microscope Images

13. Microscope Comparison

14. Parts of a Microscope

15. Parts & Function
Eyepiece or Ocular Lens – contains a magnifying lens usually 10x magnification
Arm – connects to base and supports the body tube; when carrying microscope one hand must hold the arm
Coarse focus – raises and lowers the stage or body tube for focusing image; use on LOW power objective only
Fine focus – slightly moves the stage or body tube to sharpen (adjust) the image; use on Medium or High power objective

16. Parts & Function Base – supports the microscope
Light source/Illuminator/Projection Lens – produces light or reflects light up toward the eyepiece (may be a mirror)
Diaphragm – regulates the amount of light passing up toward the eyepiece.
Stage – supports the slide being observed
Stage Clips – holds slide firmly in place

17. Parts & Function
High Power Objective Lens – focuses minute details on slide; provides a magnification of 40x
Medium Power Objective Lens – after finding image on low power, use to sharpen image; provides a magnification of 10x
Revolving Nosepiece – holds the objectives and can be rotated to change magnification
Body Tube – maintains the proper distance between the eyepiece and the objectives
Low Power Objective Lens – 1st objective used for focusing; provides a magnification of 4x (10x if no Medium power objective lens)

18. Care & Handling Microscopes
Always carry the microscope in an upright position with two hands.  One hand should support the base and the other should be on the on the arm. Do NOT swing the microscope
CORRECT!!!
INCORRECT!!!

19. Care & Handling Microscopes
Never touch lens with your fingers! Oil produced from your body smudges the glass.
Use lens paper and lens cleaning solution to clean the lenses on the microscope. 
Paper towel will scratch the lenses.
Use a soft cloth to clean other parts of the microscope.

20. Care & Handling Microscopes
Always set your microscope on a clean, flat surface.
When finished with the microscope, always remove slides from the stage.
Rotate the nosepiece to the lowest  power.
Clean stage with lens paper.

21. Use of the Microscope
Carry microscope with one hand under base and grasp arm with other hand
Gently place the microscope on the table with arm facing you.
Raise body tube by turning the course adjustment knob until the objective lens is about 2 cm above the opening of the stage.
Rotate the nosepiece so that the low power objective is directly in line with the body tube.

22. Use of the Microscope
Look through the eyepiece and switch on the lamp or adjust mirror to that a circle of light can be seen.
Moving the diaphragm lever permits a greater or smaller amount of light to come through the opening of the stage.
Place prepared slide on the stage so that the specimen is over the center of the opening.
Use stage clips to hold slide in place.

23. Use of the Microscope
Look at the microscope from the side. Carefully turn the coarse adjustment knob to raise the stage until the low power objective almost touches the slide or until the body tube can no longer be moved.
Do NOT allow the objective to touch the slide
Look through the eyepiece and observe the specimen. If the field of view is out of focus, use the course adjustment knob to LOWER the stage while looking through the eyepiece until the object comes into focus.
You are moving the slide AWAY from the objective lens

24. Use of the Microscope
Focus the image as best you can with coarse adjustment knob. Then use fine adjustment knob to focus the image more sharply.
Adjust diaphragm lever to allow the right amount of light to enter.
To change the magnification, rotate the nosepiece until the desired objective is in line with the body tube. ONLY use FINE adjustment knob with medium and high power lens
FIRST use medium power lens to sharpen image.
SECOND use high power lens to focus minute details.

25. Cyclops Cyclops under microscope
Cyclops are crustaceans and related to lobsters, crabs and shrimp.   They are invertebrates with a hard outer shell.  They swim freely about.
The cyclops has 5 pair of legs and a divided tail-like appendage called a furca.  The Cyclops is very small about 2-3mm long with one black or red eye in the middle of its head. The cyclops is named after the one-eyed monster of Greek legend.  It is greenish, straw yellow, or grayish in color.  It goes jerking through the water usually in very large numbers. The females carry the eggs (shown in picture) in little side sacs and they multiply rapidly. The cyclops is often seen near water fleas or Daphnia.  Many water animals feed upon the cyclops.  It has a very important role in the food chain.