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BIO130 Microscope Worksheet Name: Scanning Low Power High Power Magnification of the ocular lens Magnification of objective lens Total magnification Working distance Detail observed for the letter “e” Field diameter in mm Field diameter in µm (1mm = 1000µm) over Amy Warenda Czura, Ph.D. 1 SCCC BIO130 Lab 1 Microscope Worksheet Organisms, cells, and structures of varying sizes have been provided for your observation. Draw each using a magnification that makes sense (i.e. close enough that you can see one representative cell clearly but not so close that the single cell doesn’t all fit in the field). Indicate the total magnification, field diameter at this magnification, and size of the object you are observing (use the field diameter to guesstimate). Cell sizes are to be reported in micrometers (µm) and 1 millimeter is equal to 1000 micrometers. Dogfish placoid scale (diamond shape) Dinoflagellate (red, star-shape) Objective lens: Objective lens: Total Magnification: Total Magnification: Field diameter: Field diameter: Number of objects fit across: Number of objects fit across: Size of object: Size of object: Red Blood Cell (tiny red circle) Cheek Cell (fried egg) Objective lens: Objective lens: Total Magnification: Total Magnification: Field diameter: Field diameter: Number of objects fit across: Number of objects fit across: Size of object: Size of object: Amy Warenda Czura, Ph.D. 2 SCCC BIO130 Lab 1 Microscope Worksheet
