Microscope NotesThe compound microscope is a useful tool for magnifying objects up to as much as 1000 times their normal size. Using the microscope takes lots of practice. Follow the procedures below both to get the best results and to avoid damaging the equipment. Show
Field of ViewThe field of view is largest on the lowest power objective. When you switch to a higher power, the field of view closes in towards the center. You will see more of an object on low power. Therefore, it is best to find an object on low power, center it, and then switch to the next higher power and repeat. Depth of FocusThe depth of focus is greatest on the lowest power objective. Each time you switch to a higher power, the depth of focus is reduced. Therefore a smaller part of the specimen is in focus at higher power. Again, this makes it easier to find an object on low power, and then switch to higher power after it is in focus. A common exercise to demonstrate depth of focus involves laying three different colored threads one on top of the other. As the observer focuses down, first the top thread comes into focus, then the middle one, and finally the bottom one. On higer power objectives one may go out of focus as another comes into focus. Microscope TroubleshootingProblem #1: The image is upside down and/or backwards.
Problem #2: Everything is dark.
Problem #3: I can't find anything on low power!
Problem #4: When I moved to a higher power, everything disappeared!
Problem #5: The image is blurry on all powers.
Problem #6: The image is blurry only on a particular power.
Microscope DrawingsWhen drawing what you see under the microscope, follow the format shown below. It is important to include a figure label and a subject title above the image. The species name (and common name if there is one) and the magnification at which you were viewing the object should be written below the image. All relevant parts of the drawing should be labelled on the right side of the image using straight lines. Lines should not cross. Drawings should be done in pencil, while labels should be in pen or typed. Remember that total magnification is determined by multiplying the ocular x objective. Viewing Prepared Slides*** Don't hoard slides! You can only view one at a time, so that's all you should be holding. Return it before getting another, and if you break it, tell your instructor so that it can be properly cleaned up and replaced! ***
Making a Wet Mount (Live Prep) Slide
Further InvestigationDigital microscope for Macintosh or Windows Investigating pondwater organisms Powers of 10 (1977 version) Make your own microscope What happens to the working distance when the magnification increases?Changing to a higher power objective lens increases the overall magnification and the working distance reduces. Conversely adding a reducing objective lowers the overall magnification but increases the working distance.
Does field diameter increase or decrease as you move from lower magnification to higher magnification?When the magnification is increased, the diameter of the field of vision decreases. As magnification increases, you are zooming into a smaller area of the specimen compared to the previous magnification, leading to a decrease in the diameter of field of vision.
What is the relationship of working distance with magnification?In general, the objective working distance decreases as the magnification and numerical aperture both increase. The working distance is the distance from the front of the lens to the focal plane.
Does magnification increase or decrease with a smaller working distance?This rule applies to both biological microscopes and stereo microscopes. Typically the larger the magnification of a high power objective lens, or stereo microscope auxiliary objective lens, the shorter the working distance. As magnification increases, working distance decreases.
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