millimeters are 1 thousandth of a meter. micrometers are 1 millionth of a meter . 10,000,000 divided by 2,000= 5,000 yeast cells
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.
To determine how many pith cells would fit across the diameter of a low-field microscope view, we first need to know the average size of a pith cell, which is typically around 0.1 to 0.5 mm in diameter. Low-field microscopes usually have a field of view diameter ranging from about 1 mm to 5 mm. Therefore, depending on the size of the pith cells and the specific field of view, approximately 2 to 50 pith cells could fit across the diameter of the microscope's view.
No, an ocular micrometer is used for measuring objects viewed through a microscope by comparing them to a scale etched onto the eyepiece. It is not designed to measure the diameter of a field of view.
Depending on how many cells there are in the field of view. On medium power, you may not be able to see any.
Golgi bodies are a unknown subject running across a corn field
To determine how many pith cells would fit across the diameter of a low-field microscope view, we first need to know the average size of a pith cell, which is typically around 0.1 to 0.5 mm in diameter. Low-field microscopes usually have a field of view diameter ranging from about 1 mm to 5 mm. Therefore, depending on the size of the pith cells and the specific field of view, approximately 2 to 50 pith cells could fit across the diameter of the microscope's view.
Yes, a calibrated ocular micrometer can be used to measure the diameter or length of a field or object. Essentially, that is all that it is used for.
There are 1000 micrometers in 1 millimeter and thus 1000 nanometers in 1 micrometer. So, 2 mm is equivalent to 2000 micrometers, which is 2,000,000 nanometers. If each Bacillus cell is 2 nanometers, you could fit 1,000,000 Bacillus cells (2,000,000 divided by 2) end to end across the field of view.
No, an ocular micrometer is used for measuring objects viewed through a microscope by comparing them to a scale etched onto the eyepiece. It is not designed to measure the diameter of a field of view.
Depending on how many cells there are in the field of view. On medium power, you may not be able to see any.
A digital micrometer is used to measure small distances in the engineering and manufacturing field. It can measure wires, shafts, spheres, bolts, blocks, and holes.
A football field across is 53.3 yards.
the nucleus, cell membrane, cytoplasm, and in plant cells, the cell wall and chlorplasts
A ball thrown across a football field is an example of a projectile.
An ocular micrometer is a calibration tool used in microscopy to measure the size of objects in the field of view. It consists of a ruler etched onto a glass slide that fits into the eyepiece of a microscope. By comparing the size of objects to the known dimensions on the ocular micrometer, scientists can accurately measure the size of microscopic specimens.
Golgi bodies are a unknown subject running across a corn field
Sure! "I could hear my friend holler from across the field to get my attention."