Lab 1

Download Report

Transcript Lab 1 

BIO132 Lab 1 Exercise 3 The Microscope
Parts of the Microscope, Light Adjustment, & Diopter
Magnification – enlarge
Resolution – separate
into component parts
Measuring Field Diameter Using the Stage Micrometer:
1. Insure that left ocular lens is turned fully counterclockwise
(Lens should be as tall as it can be)
2. Focus on the stage micrometer
3. Measure the diameter (widest part) of the field of view
using the tiny millimeter ruler of the stage micrometer
using only your left eye in the left ocular
40X Magnification
100X Magnification
Line up the
0.0 line on the
edge of the
visible field:
the zeros will
no longer be
visible
Read off
where the
ruler ends
on the
other side:
this one
looks like
1.745mm
Each
scope is a
little
different
400X Magnification
Using field diameter to determine the size of an object
specimen feature or cell:
1. Know the field diameter of the objective lens you are
looking through. (We measured this)
2. Center and focus the object.
3. “Guess” how many of that object would fit end to end
across the diameter of the field. (Diameter = the widest
part of the circle of light you see through the lens)
10X objective: diameter measured to be 1860µm
Looks like 2 would fit across
1860µm
Using field diameter to determine the size of an object
specimen feature or cell:
4. Divide the field diameter by the number of objects you
think would fit across end to end to determine the size
of one of the objects.
10X objective: diameter measured to be 1860µm
Looks like 2 would fit across
1860µm
1860µm ÷ 2 = 930µm
New object:
10X objective: diameter measured to be 1860µm
Looks like 4 would fit across
1860µm
1860µm ÷ 4 = 465µm
The green oval is approximately 465µm long
Which lens do I use?
The object is a fixed size, regardless of lens you should get
the same answer!
Use the lens that allows you to see the whole object the
best: big enough to guestimate how many fit across the
diameter, not too magnified that you cannot see the whole
object in the same field.
10X objective: diameter measured to be 1860µm
Looks like 4 would fit across
1860µm ÷ 4 = 465µm
1860µm
40X objective: diameter measured to be 465µm
Looks like 1 would fit across
465µm ÷ 1 = 465µm
465µm
This object (green oval) is 465µm: you should get
approximately the same answer which ever lens you use.
Dogfish Placoid Scale
4X objective
(40X)
Measure one diamond
10X objective
(100X)
40X objective
(400X)
http://www.elasmodiver.com/Sharkive%20images/Spiny-dogfish-070.jpg
http://relentlessthirst.files.wordpress.com/2009/02/dogfish1.jpg
Dinoflagellate
4X objective
(40X)
Don’t cut off his tails!
10X objective
(100X)
40X objective
(400X)
Red Tide
http://www.sciencedaily.com/images/2007/08/07083
0150106-large.jpg
http://www.pac.dfo-mpo.gc.ca/fmgp/contamination/Images/Red%20Tide%20%20Mary%20Mackin%202.jpg
Human Cheek Cell
4X objective
(40X)
Large irregular shaped cells:
look like a ruffled sunny
side up egg
10X objective
(100X)
40X objective
(400X)
4X objective
(40X)
Human Blood Smear
Tiny red dots, even with the
40X objective: guestimate
carefully!
10X objective
(100X)
40X objective
(400X)
WBC
RBC
Dogfish Placoid Scale
Dinoflagellate
Human Cheek Cell
Human Blood Smear
WBC
RBC