A micrometer is 1/1000 of a millimeter. So anything that measures 1 micrometer will also measure 0.001 millimeters. Therefore, your organism will measure 0.005 millimeters on average.
With average precipitation of 4.4 inches [111 millimeters], January is the month with the most precipitation. The second highest month is March with 4.3 inches [109 millimeters]. December averages 4.1 inches [103 millimeters]. November averages 3.7 inches [93 millimeters]. February averages 2.9 inches [76 millimeters]. October averages 2.4 inches [62 millimeters]. April averages 2.1 inches [54 millimeters]. May averages 1.7 inches [44 millimeters]. September averages 1.3 inches [33 millimeters]. June averages 0.6 inches [16 millimeters]. August averages 0.2 inches [4 millimeters]. July averages 0.1 inches [3 millimeters].
Euglenas are typically around 40-50 micrometers in size. To convert micrometers to millimeters, we divide by 1000, so 40-50 micrometers is equal to 0.04-0.05 millimeters. Therefore, in a 1 mm space, you could fit approximately 20-25 euglenas depending on their size and how tightly they are packed.
The head or the point of the pin? I would measure the head in millimeters and the point of the pin in micrometers.
0.001 inch, how many micrometers would this be?
The circumference of a water droplet from a pipette would vary depending on the size of the droplet. However, typically, water droplets are very small, so the circumference would be in the range of micrometers to millimeters.
The metric unit of length typically used to measure the eye of a needle is millimeters or micrometers due to the small size of the opening.
There are 1000 micrometers to a millimeter. Our bacterium is 20 micrometers long. Divide 20 into 1000. (Do you really need more advice? ok. 1000/20 = 50) __________________________ yep, 50 cells to make a chain 1 millimetre long. that's tiny!
1 micrometer = 1.0 × 10-9 kilometers So, 78 micrometers = 0.000000078 kilometers
To calculate the size of the organism, you would need to know the magnification of the microscope being used. Comparing the field diameter at 400x magnification with the actual size of the organism would give you the scale factor to determine the organism's size. For example, if the field diameter at 400x is 0.5 mm, and the actual size is 50 micrometers, then the organism is 10 times smaller than the field diameter.
You could measure with Kilometers, Deckameters,hectometers,meters,decimeters,centimeters,millimeters, or micrometers. To give you an idea, one centimeter is equal to 2.54 inches. There are about three feet in one meter.
There are 100,000,000 gigameters in 100,000,000,000 micrometers. To convert micrometers to gigameters, you would divide by 10^13, since 1 gigameter is equal to 10^9 meters and 1 meter is equal to 10^6 micrometers.
1 micrometre - 1µm - is 10-6m, or 0.000001m.Therefore 10µm would be 10-5m, or 0.00001m.