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Chapter7 Microscopes and cells. Where does cork come from? The bark of an oak tree that grows in Spain and Portugal The bark is dead All that is left.

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Presentation on theme: "Chapter7 Microscopes and cells. Where does cork come from? The bark of an oak tree that grows in Spain and Portugal The bark is dead All that is left."— Presentation transcript:

1 Chapter7 Microscopes and cells

2 Where does cork come from? The bark of an oak tree that grows in Spain and Portugal The bark is dead All that is left are the cell walls enclosing air

3 Microscopes reveal cell structure Robert Hooke, an English scientist, invented the microscope in the 1600’s to view cork He named the “little boxes” he saw, “cells”

4 Anton van Leeuwenhoek 10 years after Hooke’s findings Used a microscope to view pond water He named the single- celled organisms he discovered “animalcules”

5 Measuring the size of cell structures Measurements are in metric units International System of Measurements (SI) Based on powers of 10 Micrometers are one- millionth of a meter ( the size of a bacterial cell)

6 Characteristics of microscopes Magnification vs. Resolution -makes an image appear larger than appear more or less its actual size clear BOTH are needed to view the details of extremely small objects clearly

7 Different types of microscopes Light microscopesElectron Microscopes Light passes throughuses a beam of electrons one or more lensesto form an image to produce an enlarged image

8 Compound Light Microscope Used in high school labs Total magnification=ocular lens x objective lens Most powerful magnifies 2,000x Can view live specimens Much less powerful than electron microscope

9 Staining Cells –Problem with light microscopy is that most living cells are nearly transparent, making it difficult to see the structures within them. –Using chemical stains or dyes can usually solve this problem. – Some of these stains are so specific that they reveal only compounds or structures within the cell.

10 Electron Microscopes Can magnify up to 200,000x Specimen must be viewed in a vacuum No live specimens can be viewed

11 Electron Microscope Uses a beam of electrons Higher resolution Two major types –Transmission –Scanning Must be viewed in a vacuum All specimens that are viewed must be dead

12 Transmission Electron Microscope -Reveal internal structures of the cell TEM of sperm

13 TEM Can see –Cell structures –Large Proteins Samples must be cut in ultra thin slices Produces flat 2-d images

14 Scanning Electron Microscope -Shows 3-D images of cell surfaces SEM of sperm cells

15 SEM Pencil-like beam of electrons scanned over the surface of the specimen Produces a 3-d image

16

17 Rules when using the Microscope Carry the microscope by the arm and base. Place the microscope 4 – 6 inches from the edge of the lab table. Do not use the coarse adjustment when on high power.

18 Field of View 3 things to include in a Microscope drawing: 1.Title 2.At least 1 label 3.Total magnification

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