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History of microscopy
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Introduction
Structure of microscope
Care of microscope
Use of microscope
Magnification
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As we already know cells are microscopic.
What does this mean? Scientists were able to see and study the
cells because of a discovery of microscopes.
Initially botanist and zoologist were only able to study, describe, draw and label only the external structure of macroscopic organism.
This is referred to as the macroscopic view.
What are macroscopic organisms?
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Microscopic: refers to organisms that are so
small that they are not visible to the naked.
Macroscopic: refers to organisms that are
visible to the naked eye.
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Robert Hooke, an English scientists looked at cork tissue under a very simple microscope as shown below.
He observed these cells in 1665.
As shown in the insert he saw many box like compartments.
He called these compartments cells.
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The cork tissue comes from the cork plant.
However all he managed to see were the cell
walls of the cells.
The cork cells were dead, therefore there
was nothing inside these cells.
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He was a Dutch scientist.
He observed the bacteria under a simple
microscope in 1674 as shown below (“little
animals” in rain water).
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Three scientist, Oken in 1805, Lamarck in
1809 and Dutrochet in 1824, independently
stated that plants and animals were made
up of cells.
In 1838 Mathias Schleidan, a German
scientist, was first to regard the cell as a
structural unit of plants.
Then in 1839, Theodor Schwann was the
first to regard the cell as the structural unit
of animals.
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A German scientist, Purkinje, was the first to
use the term protoplasm to describe the living
contents of the cell. This was in 1839.
Then 1859, another German scientist, Schultz,
was the first to describe the protoplasm as the
physical basis of life.
Finally, Rudolf Virchow, put forward the idea
that new cells formed when existing cells
divided.
These scientist were able to make these
discoveries as a result of advancement in the
development of the microscope.
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These ideas mentioned in the previous two
slides developed into what is known as the
cell theory. According to this theory:
1. Every living organism is made up of cells (cells
are the basic unit of life).
2. Every living cell comes from another.
3. All cells are basically similar.
4. Cells consist of a substance called protoplasm.
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Compound light microscope (use 2 lenses)
With your microscope at school you are able
to see objects magnified 600 times, by
using the 40X objective and 15X ocular
lens.
The nucleus, cell membrane, cytoplasm and
chloroplast were observed and named using
the light microscope.
However the details of these structures were
not visible because the microscope is not
powerful enough.
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However in the 1930s a more powerful
microscope was invented by Zworykin.
This was called the electron microscope
There are 2 types of electron microscopes.
They are the scanning electron microscope
(SEM) and the transmission electron
microscope (TEM)
The SEM is used to scan and view the
surface of objects.
The TEM is used to see inside the objects by
allowing light to pass through them.
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With the electron microscope we are able to view objects 50 000 to 100 000 times.
The image is clear and not blurred.
They are able to provide such good images because they use electron beams instead of light
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1. Base: supports the microscope. Always place your hand under the base when transporting the microscope.
2. Mirror: provides source of natural light. The mirror must be focused to reflect light.
3. Illuminator/lamp: it provides an electric source of light, it is much easier to use.
4. The condenser: it is found below the stage. Its function is to concentrate the light through the slide and specimen.
5. Iris diaphragm: this is an opening in the condenser, it controls the amount of light falling on the specimen.
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6. Stage: this is the platform on which the
slide is placed.
7. Stage/slide clips: these are metal clips
that are used to hold the slide in position
so that is does not move around when it is
being focused.
8. Mechanical stage: this is found in only
some microscopes, it allows easy
movement of the slide.
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9. Objectives: these are a combination of lenses used to magnify the specimen. There are 3 different types of objectives.
10. 4X objectives: this is the short objectives. It magnifies the objectives 4X
11. 10X objectives: this is the medium objective. It magnifies the specimen 10X.
12. 40X objective: this is the long objective. It magnifies the specimen 40X
13. The revolving nose piece: the objectives are attached to this nose piece. Ensures the objective is in position when viewing the specimen.
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14. Body tube: the eye piece and objectives
are found on it. It also links the eye piece
and objectives. In other words it links and
supports the optical parts.
15. Coarse adjustment screw: used to make
adjustments to focus the image. It moves
the body tube up and down quickly, it
provides quick focus. Used mainly at low
magnification.
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16. Fine adjustment screw: is used to make
fine adjustments to focus the image.
Used with higher magnification. Prevents
damage to slide if any sudden movements
are made during focusing.
17. Eye piece/ocular: combination of lenses
that are used to magnify the specimen.
There are 3 oculars 5X, 10X and 15X
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Use your notes and diagram of the microscope
to label the diagram and provide the
functions of the following parts:
1. A
2. C
3. E
4. I
5. M
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A. Eyepiece
B. Coarse adjustment screw
C. Body tube
D. Fine adjustment screw
E. Nose piece
F. Medium objective/10X
G. Arm
H. Long objective/40X
I. Stage
J. clip
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K. Diaphragm
L. Base
M. Light source
N. Short objective/4x
1. Eye piece-magnifies image
2. Body tube- supports and links optical parts
3. Nose piece- attachment of objectives
4. Stage- platform on which slide is place
5. Light source- provides electrical light
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Follow these guidelines when handling a
microscope:
1. Transport the microscope by placing one
hand under the base and the other holding
the arm,
2. Work one hand width away from the edge
of the work bench.
3. Use only soft tissue to clean the lens.
4. Always ask for help if you are unsure of
anything
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Setting the light and condenser
1. Open the diaphragm fully.
2. Look at the mirror. Notice that it has two
surfaces: a plane one and a concave one.
If the microscope has a built in condenser
then have the plane surface of the mirror
facing up. If the there is no condenser
then the concave surface must face up.
3. Adjust the mirror so that it faces a source
of natural light. E.g. A window, open door.
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Setting the light and condenser
4. Select the lowest power objective by
turning the nose piece until you hear or
feel the object click into position.
5. Place a sharp pencil on the mirror and
focus until you obtain a sharp image of the
pencil tip.
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Focusing at low magnification
1. Place the slide on the stage.
2. Secure it using the clips.
3. Look through the eyepiece and slowly turn
the coarse adjustment screw to focus the
specimen.
4. Slowly turn the fine power objective to
focus a clearer image of the specimen.
5. The slide may need to be moved to ensure
the part of the specimen under
examination is what you are seeing.
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Focusing at higher magnification
1. Move the next objective into position by
carefully moving the nose piece until the
objective clicks into position.
2. If the specimen is not clearly visible then
use the fine adjustment screw to obtain a
clearer image.
3. You may repeat the process using the next
high power object if more detail is
required.
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Changing the eyepiece
1. The magnification can be increased by
using higher power eyepieces.
2. Simply remove the existing eyepiece and
replace it with one that has higher
magnification power.
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Record what you see
1. Draw a diagram of what you see.
2. Draw and label exactly what you see, even
if many aspects are missing.
3. In many cases you do not have to draw the
entire image, only a portion of it.
4. Do not forget to indicate the scale of your
drawing. For example if you used the
medium power objective and the 5X
eyepiece then your scale is 150 times(5X10)
5. Use a sharp pencil.
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1. Remove the slide.
2. The 4x objective must be in position.
3. Replace the dust cover
4. Place the microscope in the correct box.
5. Store away.
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Magnification of the microscope when
viewing an objective:
In order to determine how many times the
specimen viewed is magnified by we need to
calculate the magnification of the
microscope.
We can do this by using the following
formula:Magnification power of = magnification of eyepiece X magnification of
microscope lens
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For example if you use the 10X eyepiece and
the 40X objective then…
Magnification = 10 X 40 = 400X
It is usually expressed as “viewed under the
microscope at 400X.”
To determine the actual size of an object
viewed under the microscope using the field
of view approach.
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To determine the actual size of an object
viewed under the microscope using the
field of view approach.
The field of view is the circle of light that
you see when looking through the eyepiece.
The diameter maybe measured by viewing a
ruler under the microscope.
The diameter for the field of view and the
lens on your microscope is about 4.5 mm or 4500μm.
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To calculate the length of the object you
must determine the portion/fraction of the
field it covers.
This can only be done by determining the
number of objects that can fit in the field of
view.
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For example look at the two field of views
below.
In the one on the right 4 of the object can fit
in the field of view.
Therefore one object occupies ¼ of the field
diameter.
X
X
X
X
X
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Therefore the approximate length of the
object can be calculated as follows:
4500 μm X ¼ = 1125 μm
The approximate length maybe calculated
using the formula:
Approximate length of object = fraction X diameter of field
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To determine the magnification of a drawing.
1. You need the actual size of the object
drawn and the actual size of the drawing.
2. Magnification of the drawing can be
calculated using the formula:
Magnification of drawing = drawing size
object size
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3. For example if your object has an actual length
of 1115 μm, and your drawing of that object
has a length of 5 cm, then you ,can calculate
magnification of drawing as follows:
First the 5cm must be converted into μm that is
5 X 10 000 = 50 000 μm
Then:
Magnification of drawing = drawing size
object size
= 50 000/ 1115
= 45 μm
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To determine the actual size of the object
whose image or micrograph is viewed using
a scale line.
1. Determine what the scale line measures.
2. Assume it represents 1 μm.
3. Measure the scale line given in the drawing
or micrograph. ( lets say its 15mm)
4. Measure the length of the image in ;the
drawing or micrograph. ( lets say its 50mm)
5. Now we can use the following formula
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= 50mm X 1 μm
15mm
= 3.3 μm
Actual size = measured length of object (mm) X length of scale line (μm)measured length of scale line (mm))
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Macroscopic: refers to organisms that are
visible to the naked eye.
Microscopic: refers to organisms that are so
small that they are not visible to the naked.
Field of view is the circle of light that you
see when looking through the eyepiece
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1. The platform on which the slide sits is
called the…
A. Base
B. Stage
C. Condenser
D. diaphragm
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2. Opening that controls the amount of light
entering the microscope
A. Base
B. Stage
C. Condenser
D. diaphragm
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3. It concentrates light through the slide and
specimen
A. Base
B. Stage
C. Condenser
D. diaphragm
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4. The combination of lens to magnify the
image from objectives and specimen…
A. Eyepiece
B. Body tube
C. Illuminator
D. Mirror
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5. It supports and links the optical parts.
A. Eyepiece
B. Body tube
C. Illuminator
D. Mirror
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6. Provides support for the microscope
A. Base
B. Stage
C. Condenser
D. diaphragm
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7. Provides electrical light when switched on.
A. Eyepiece
B. Body tube
C. Illuminator
D. Mirror
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8. Provides a source of natural light.
A. Eyepiece
B. Body tube
C. Illuminator
D. Mirror
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9. Attachment of objectives.
A. Nose piece
B. Mechanical stage
C. Stage clips
D. Fine adjustment screw
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10. Holds the slide in position on stage.
A. Nose piece
B. Mechanical stage
C. Stage clips
D. Fine adjustment screw
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11. Allows for easy movement of slide
A. Nose piece
B. Mechanical stage
C. Stage clips
D. Fine adjustment screw
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12. The picture below shows the microscope
used by…
A. Robert Hooke
B. Van Leeuwenhoek
C. Oken
D. Lamarck
![Page 55: History of microscopy...2018/04/03 · With the electron microscope we are able to view objects 50 000 to 100 000 times. The image is clear and not blurred. They are able to provide](https://reader034.vdocuments.mx/reader034/viewer/2022051512/603dad641e67bb4140348ef2/html5/thumbnails/55.jpg)
13. The scientist who viewed cork cells under a
simple microscope.
A. Robert Hooke
B. Van Leeuwenhoek
C. Oken
D. Lamarck
![Page 56: History of microscopy...2018/04/03 · With the electron microscope we are able to view objects 50 000 to 100 000 times. The image is clear and not blurred. They are able to provide](https://reader034.vdocuments.mx/reader034/viewer/2022051512/603dad641e67bb4140348ef2/html5/thumbnails/56.jpg)
14. The scientist that observed and described
single celled organisms.
A. Robert Hooke
B. Van Leeuwenhoek
C. Oken
D. Lamarck
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15. The electron microscope was invented by…
A. Robert Hooke
B. Van Leeuwenhoek
C. Zworykin
D. Lamarck
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16. Calculate the magnification power of a
microscope if you use the medium power
objective and the 15X eyepiece.
A. 150X
B. 75X
C. 25X
D. 20X
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17. Calculate the length of an object if it
covers ½ of the field of view, assume that
the diameter of the field of view is 4500μm…
A. 2250 μm
B. 2000 μm
C. 4500 μm
D. None of the above
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18. Calculate the magnification of a drawing
you have done if your drawing of the
organism is 2500 μm and your drawing of it
is 7 cm long.
A. 2507 μm
B. 28X
C. 0,0028
D. 28 μm
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19. If you wanted to scan and view the surfaces
of objects, you must use the…
A. Electron microscope
B. SEM
C. TEM
D. Light microscope
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20. If you wanted to see the inside of objects
you would use the…
A. Electron microscope
B. SEM
C. TEM
D. Light microscope
![Page 63: History of microscopy...2018/04/03 · With the electron microscope we are able to view objects 50 000 to 100 000 times. The image is clear and not blurred. They are able to provide](https://reader034.vdocuments.mx/reader034/viewer/2022051512/603dad641e67bb4140348ef2/html5/thumbnails/63.jpg)
1. B
2. D
3. C
4. A
5. B
6. A
7. C
8. D
9. A
10. C
![Page 64: History of microscopy...2018/04/03 · With the electron microscope we are able to view objects 50 000 to 100 000 times. The image is clear and not blurred. They are able to provide](https://reader034.vdocuments.mx/reader034/viewer/2022051512/603dad641e67bb4140348ef2/html5/thumbnails/64.jpg)
11. B
12. B
13. A
14. B
15. C
16. A
17. A
18. B
19. B
20. C