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Microscope Basics. Parts and focusing. Label the Compound Light Microscope. Ocular lens Body Tube Coarse Adjustment Knob Fine adjustment Knob Revolving nosepiece Objective lenses (4x, 10x, 40x) Arm Stage Stage Clips Diaphram Light source Base. Focusing with a Microscope. - PowerPoint PPT Presentation
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Microscope Basics
Parts and focusing
Label the Compound Light Microscope
Ocular lens
Body TubeCoarse Adjustment KnobFine adjustment KnobRevolving nosepieceObjective lenses (4x, 10x, 40x)ArmStage Stage ClipsDiaphramLight source
Base
Focusing with a Microscope Plug in and turn on. Lower stage completely. Turn nosepiece to low objective. Raise stage with coarse objective until specimen is seen. (Big
knob) Fine focus the specimen. Centre specimen in the field of view. Rotate nosepiece to medium power objective. Refocus with fine adjustment. Re-centre the specimen. Refocus with fine adjustment (be careful not to break the
slide) Adjust the condenser(Light) Start over to look at another specimen. Carrying and storage instructions.
Robert Hooke In 1665, the English physicist Robert Hooke
looked at a sliver of cork through a microscope lens and noticed some "pores" or "cells" in it.
Hooke was the first person to use the word "cell" to identify microscopic structures when he was describing cork.
What he actually observed was the cell walls of the once living plant cell.
Historic Microscope - link
Early Microscopes - Anton Van Leeuwenhoek The father of microscopy, Anton Van
Leeuwenhoek of Holland (1632-1723). Anton Van Leeuwenhoek was the first to see and
describe living blood cells, bacteria (1674), yeast plants and single-celled organisms.
Robert Brown In 1820, scientist Robert Brown
observed and recorded the first instance of a tiny sphere inside a plant cell called the nucleus.
Shortly after the nucleus was found inside animal cells as well.
The discovery of these cells and their nucleus provided the foundation of cell theory: all living things are composed of one or more cells and the cell is the most basic unit of life.
Big and Small Link – Scale of the Universe
Compound Light Microscopes Uses light to illuminate objects Has two lenses Magnification limited to 2000x (400x at LHHS)
Transmission Electron Microscope(TEM) Uses beams of electrons and can magnify subjects
up to 2 000 000X Has two limitations:
Good only for thin specimens Only dead cells can be observed
Scanning Electron Microscope
Electrons are reflected from the surface of the specimen
Produces a 3-D image Good for the thicker specimens Lacks the magnification and resolution of the
transmission electron microscope
Pollen
Dust Mite
Magnification Magnification = Objective lens X Ocular lens
(4x, 10x, 40x) (10x)
Calculating the size of a specimen
Calculating the size of a specimen – ex. Med viewObject size = Size of field of View
Number of objects across field of view
Object size = 1.72 mm 14
Object size = 0.1 mm