Lab 3: Care and Use of the Microscope Lab
Compound light microscope
"Light" refers to the method that light transmits the image to your eye. "Compound" deals with the microscope having more than one lens.
Microbes are less than
1 millimeter in size and usually measured in micrometers (1 um= 1/1000 mm)
Calculating diopter values
1) After the interpupillary distance has been determine, find the diopter adjustment rings in the ocular lens 2) turn diopter rings so the mark on each ring aligns with the midpoint of the microscope scale on the ocular 3) close the left eye. Use the fine focus to find the clearest possible image 4) open left eye, and close right eye 5) tuen diopter ring on the left lens from one extreme to the other to find the best viewing place 6) record the diopter value
Calculating interpupillary distance
1) focus on a specimen using lower power objective 2) move oculars apart 3) notice you can see two images. Move the oculars tighter until the split image is viewed as one 4) record the number
12 cells fit across the diameter of the FOV using the low power. Calculate cell size.
1800um/12.0 cells= 150um cell
If you count 5.5 cells that would fit across the diameter of the field of view (FOV) using the scanning objective, what would be the cell size?
4500/5.5= 818.18 You can round it to 820um.
Stage (of microscope)
A flat area that supports the slide.
Discuss the relationship between: magnification, diameter of FOV, and brightness
As magnification increases, FOV decreases & brightness decreases
Discuss the relationship between: magnification, diameter of FOV, and the relative brightness of all objects.
As magnification increases, the diameter of FOV decreases and the brightness decreases.
Condenser (of microscope)
Concentrates light before it passes through the tissue.
Discuss how you would calculate cell size of a single celled organism?
Diameter of FOV/# of cells across FOV
Calculating cell size
Diameter of the FOV/Number of cells across diameter of FOV
How do you calculate cell size?
Diameter of the FOV/number of cells
Compare and contrast dissecting and light microscopes
Dissecting- Low magnification and Large specimen. Compound- High magnification and small specimen. Similarities: Dissecting and compound light microscopes are both optical microscopes that use visible light to create an image. Both types of microscope magnify an object by focusing light through prisms and lenses, directing it toward a specimen. Differences: The Light Microscope is the most commonly used. Magnifies from 40x up to 1,000x. Specimens can be dead or alive. The compound light microscope can be used with a dye on the slide to view tissue samples, blood, microorganisms in pond water, microscopic cells. The microscope allows light to pass through a specimen and uses two lenses to form an image. The dissecting microscope is a light microscope that uses low magnification. Magnifies up to 40x. The dissecting microscope is used to view larger organisms, organs, tissues, and small objects that can be seen with the naked eye but need more magnification to view details.
Calculate total magnification for a particular objective len
Each time by 10 4X=40 10X=100 40X=400
Base (of microscope)
Gives microscope support
Resolution
How clearly details can be seen
Body Tube microscope
Joins the ocular lens and nosepiece
What is the difference between magnification and resolution?
Magnification is how enlarged something is, while resolution is how clearly details can be seen
Ocular lens
Magnifies the image 10x Ocular lens is closer to your eye
Objective lens
Magnifies the object. Scanning objective has a magnification of 4X. Low power has a magnification of 10X. High power has a magnification of 40X
Light microscopes
Microscopes that use light and lenses to magnify the image of a specimen Can magnify an object 1000 Times to 2000 times the original diameter.
Magnification
The degree of enlargement of a specimen
Arm (of microscope)
The pan that you grasp to carry the instrument
nosepiece of microscope
The revolving pan wheee the objectives are attached
Resolution
The smallest distance between two points How clearly details can be seen
When you estimate cell size, you need to take into consideration the objective you are using to view the object with and the diameter of the field of view (FOV).
True Using the Scanning Objective, the diameter of the FOV is 4,500um. Using the Low Power, the diameter of the FOV for is 1800um. Using the High Power Objective, the diameter of the FOV is 450um Using Oil Immersion, the diameter of the FOV is 180um.
As you increase the magnification, you are decreasing the FOV
True. Also, if you know the FOV and the magnification when viewing an object, you can calculate the size of the cell There is a mathematical relationship between the magnification and the diameter of the FOV
Mechanical stage drive knobs
Two knobs below the stage that will move the slide on the stage, giving the observer a total field as she looks through the eyepiece.
Diopter value
When you look through a microscope with two eye-piece lenses, you have to change the focus on one eyepiece to compensate for the difference in vision between your two eyes.
Parfocal
a lens that stays in focus when magnification/focal length is changed
electron microscope
a microscope that focuses a beam of electrons to magnify objects Electron beams have wavelengths 100,000 times shorter than visible light and allows magnification up to 10 million times. Electron microscopes allow viewers to increase magnification without losing resolution. Live specimens cannot be observed with the electron microscope and samples take data rather than minutes.
iris diaphragm
controls the amount of light passing through the specimen
focus adjustment knobs
course adjustment knob for larger focusing and fine adjustment knob for precision focusing
interpupillary distance
distance between eyepieces
objective lens
enlarges the image of the specimen Scanning objective has a magnification of 4X. Low power has a magnification of 10X. High power has a magnification of 40X. Oil immersion lens has a magnification of 100X.
FOV
field of view
light source of microscope
provides light to view image
