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Microscopes and Basic Measurement

Discover the importance of microscopes and basic measurement in studying the living environment. Learn about the metric system, unit conversions, prefixes, and the essential micrometers. Explore the history of early microscopes and components of a compound microscope. Gain insights into magnification, field of view, resolution, and determining the size of objects under a microscope. Compare different types of microscopes, such as compound light, dissecting, phase contrast, and electron microscopes. Uncover the role of additional equipment like centrifuges and micro-dissecting tools. Enhance your understanding of microscopy and its significance in scientific research.

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Microscopes and Basic Measurement

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  1. Microscopes and Basic Measurement How are they used to study the living environment?

  2. Measuring and Units • Use a standardized system (metric system) • Meters = length • Gram = mass • Liter = volume

  3. Why Use Metric? • Base 10 system • Easier to convert units • Simply multiply or divide by 10 to change unit

  4. Prefixes • Used to show smaller or larger measurements • Mega • Kilo • Hecto • Deka • Deci • Centi • Milli • Micro • Nano

  5. Important Unit for Microscopes • Micrometers (microns) = µm • 1/1000th of a millimeter • 1000 micrometers = 1 mm

  6. How Big is a Micron?

  7. Early Microscopes • Anton Van Leeuwenhoek (1670’s) • First to see and describe single celled organisms (protozoa)

  8. Robert Hooke (1665) • Coined term “cell”

  9. Earliest Microscope?

  10. Parts of a Compound Microscope

  11. Contain two lenses that cause light rays to bend in such a way to produce an enlarged image.

  12. Lenses: Ocular Lens: eyepiece lens Objective Lens: can be low, medium or high power Look at magnification on lens Lower power is smaller in size

  13. Letting in Light: • Mirror or Illuminator: directs light up through the specimen • Diaphragm: regulates amount of light • Disk with different sized “iris” or openings

  14. Arm: connects stage and body tube • Stage: platform with opening over which a specimen is placed (clips to hold slide) • Base: supports microscope

  15. Eyepiece (ocular): part you look through, holds ocular lens, magnifies 10x • Body tube: connects eyepiece & objective lenses • Nosepiece: holds objective lenses (can be turned) • Objective Lens: magnifies image, can be low, medium, high power

  16. Focusing: Coarse Adjustment Knob: use on low power only!! (never use with high power you can break your slide!) Fine Adjustment Knob: once low power is focused switch to high power and use fine adjustment.

  17. Magnification • How much can you enlarge the image? • Ex: 100x = 100 times as big

  18. Finding Total Magnification • Multiply strengths of two lenses you are using. • Ocular lens x Objective lens Ex: Ocular = 10x High Power Objective= 45x Total Magnification = (10 x 45) = 450x

  19. Practice Find Total Magnification: • Ocular 2x, Objective 30x = • Ocular 10x, Objective 60x = • If Ocular is 10x and Total mag. = 350x What is the strength of the objective lens?

  20. Note: • As you increase magnification you need to let in more light to see your specimen (adjust diaphragm)

  21. Resolution • How sharp can you get the image? • Ability of microscope to distinguish two objects as being separate (ex: one cell from another)

  22. What Happens to Image? • Compound Microscopes: • Image becomes inverted and upside down

  23. What Happens to Image? • When you increase magnification • Object appears larger • Field of view gets smaller

  24. Finding Field of View (F.O.V) Under Low Power: Use millimeter ruler Ex: 1.5mm Convert to micrometers 1 mm = 1000 micrometers So 1.5 mm = 1,500 micrometers (Move decimal over 3 to right)

  25. Finding Field of View (F.O.V) • Under Medium or High Power Need to set up a proportion Remember!! • As magnification increases FOV decreases

  26. Low power Magnification = High power FOV High power Magnification Low power FOV Ex: 100x = HP FOV 500x 1500 micrometers 500x = 150000 HP FOV = 300 micrometers

  27. Determining the Size of an Object Under a Microscope

  28. View and draw object on low power • Estimate how many objects would fit across diameter of field of view

  29. Divide the diameter of FOV by the number of objects that can fit across it. • Ex: • Three letter “e”s fit across FOV of 1800 micrometers • Each letter is about 600 micrometers 1800 micrometers = 600 µm 3 letter “e”

  30. Comparing Microscopes

  31. Compound Light Microscope Magnification 40x – 1500x • 2-D image, inverted, upside down • Uses stains to see details (may kill specimen) • Specimen must be thin to allow light through

  32. Dissecting Microscope: Low mag. 10x – 20x • See true image (right side up) • Specimen can be alive • Can use tools for dissecting specimen • Binocular (two ocular lens) so you can see 3-D image

  33. Phase Contrast Microscope: • Uses special filters to show depth without staining. • Can see interior details of living cells

  34. Electron Microscopes: • Much higher magnification and resolution than microscopes that use light. • Magnifies up to 200,000x • Uses beam of electrons • Sample placed in vacuum • Cannot view living specimens • Allowed scientists to see structure of cellular organelles

  35. Other Equipment • Centrifuge: • Separates cell components by density • Whirls test tubes at high speed • Heaviest at bottom

  36. Micro-dissecting Tools • Used to dissect cells

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