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What piece of laboratory equipment would be best to use for observing a living cell with a diameter of 70 micrometers?

A light microscope would be the best laboratory equipment for observing a living cell with a diameter of 70 micrometers. This type of microscope provides sufficient magnification and resolution to view cells in detail while allowing for live observation. Alternatively, a phase-contrast microscope could enhance visibility of the cell's structures without the need for staining, making it ideal for live cell observation.


What is cell is approximately 13 the diameter of the field of vision using high power and the diameter of the field of vision for high power is 600 micrometers what is the size of this?

To find the size of the cell, you can divide the diameter of the field of vision by 13. Given that the diameter of the field of vision at high power is 600 micrometers, the calculation would be: 600 micrometers / 13 ≈ 46.15 micrometers. Therefore, the size of the cell is approximately 46.15 micrometers.


If the diameter of a microscope field is 1 millimeter how many cells with a length of 250 micrometers will fit across the field?

To determine how many cells fit across the microscope field, convert the diameter from millimeters to micrometers: 1 millimeter equals 1,000 micrometers. Then, divide the diameter of the field by the length of one cell: ( \frac{1000 \text{ micrometers}}{250 \text{ micrometers}} = 4 ). Therefore, four cells with a length of 250 micrometers will fit across the field.


If the diameter of a microscope field is 1 millimeter how many cells with a length of250 micrometers will fit across the field?

To determine how many cells with a length of 250 micrometers can fit across a microscope field with a diameter of 1 millimeter (1000 micrometers), you divide the total field diameter by the length of one cell. So, 1000 micrometers ÷ 250 micrometers = 4 cells. Therefore, a total of 4 cells can fit across the field.


You are looking at a slide in the laboratory and observe a cell that occupies one quarter of the field of view at high magnification. Use your field-diameter calculation from lab activity 4 to estima?

To estimate the size of the cell occupying one quarter of the field of view, first determine the diameter of the field at high magnification from your lab activity. If the diameter is, for example, 400 micrometers, then the area of the entire field is approximately 125,600 square micrometers (using the formula for the area of a circle: A = πr²). Since the cell occupies one quarter of this area, its area would be about 31,400 square micrometers. To find the approximate diameter of the cell, you can rearrange the area formula (A = πr²) to solve for r, and then multiply by 2 to find the diameter.

Related Questions

What piece of laboratory equipment would be best to use for observing a living cell with a diameter of 70 micrometers?

A light microscope would be the best laboratory equipment for observing a living cell with a diameter of 70 micrometers. This type of microscope provides sufficient magnification and resolution to view cells in detail while allowing for live observation. Alternatively, a phase-contrast microscope could enhance visibility of the cell's structures without the need for staining, making it ideal for live cell observation.


What is the diameter in inches if diameter is 17 micrometers?

17 micrometers = .00066929133858267 inches.


What is the diameter of the high power field of a microscope in micrometers?

the diameter of the high power field microscope is 500 micrometers


What is the diameter of 500 mcm?

500 mcm (micrometers) is equivalent to 0.5 millimeters. To convert micrometers to millimeters, you divide the number of micrometers by 1,000, as there are 1,000 micrometers in a millimeter. Thus, the diameter of 500 mcm is 0.5 mm.


What is cell is approximately 13 the diameter of the field of vision using high power and the diameter of the field of vision for high power is 600 micrometers what is the size of this?

To find the size of the cell, you can divide the diameter of the field of vision by 13. Given that the diameter of the field of vision at high power is 600 micrometers, the calculation would be: 600 micrometers / 13 ≈ 46.15 micrometers. Therefore, the size of the cell is approximately 46.15 micrometers.


What is the diameter of chloroplast?

4 to 6 micrometers


How big is a serratia marcescens bacterium?

0.5 to 0.8 micrometers in diameter and 0.9 to 2.0 micrometers in length


If the diameter of a microscope field is 1 millimeter how many cells with a length of 250 micrometers will fit across the field?

To determine how many cells fit across the microscope field, convert the diameter from millimeters to micrometers: 1 millimeter equals 1,000 micrometers. Then, divide the diameter of the field by the length of one cell: ( \frac{1000 \text{ micrometers}}{250 \text{ micrometers}} = 4 ). Therefore, four cells with a length of 250 micrometers will fit across the field.


How big is a red blood cell measured in microns?

20 micrometers (a human hair is 200 micrometers)


If the diameter of a microscope field is 1 millimeter how many cells with a length of250 micrometers will fit across the field?

To determine how many cells with a length of 250 micrometers can fit across a microscope field with a diameter of 1 millimeter (1000 micrometers), you divide the total field diameter by the length of one cell. So, 1000 micrometers ÷ 250 micrometers = 4 cells. Therefore, a total of 4 cells can fit across the field.


What is Cell diameter is measured in?

Cells are typically measured in micrometers


What is the diameter of most living cells?

10 to 50 micrometers