It takes 1,000 millimeters, end to end, to make one meter.
if its a line it goes on forever so it has arrows on each end. For a segment you just make a dot, measure 46 millimeters and put another dot on that end. No arrows on a segment.
Approximately 30 millimeters away from primary end of that tape.
To convert centimeters to millimeters, you multiply by 10 since there are 10 millimeters in 1 centimeter. Therefore, 4 centimeters is equal to 40 millimeters (4 cm x 10 mm/cm = 40 mm).
There is no end to the number pi...it goes on indefinately. However, pi to the 2oth place is 3.14159265358979323846.
Around 9 red blood cells can fit end-to-end in a space that is 7.5 millimeters long. This is because a red blood cell is approximately 7 micrometers in diameter, and 1 millimeter is equal to 1000 micrometers. Therefore, 7.5 millimeters is equivalent to 7500 micrometers, allowing for 9 red blood cells to fit end-to-end.
One centimeter can be cut up into 10 millimeters. It takes 10 millimeters, placed end-to-end, to reach one centimeter.
Not even close.A typical hydra is a few millimeters long.Copepods are much more common, and a typical copepod is less than 2 millimeters long.Organisms in the Archaea and Bacteria groups are typically a few micrometers in size.(So a thousand typical bacteria set end-to-end are about the same length as a typical hydra).
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.
It takes 1,000 millimeters, end to end, to make one meter.
There are 1,000,000 micrometers in a meter, so 1 meter is 1,000,000/60 = 16,666.67 bacterial cells can fit end to end.
You can measure the length or width of a piece of chocolate in millimeters using a ruler or a caliper. Place one end of the ruler at the start of the chocolate and read the measurement where the chocolate ends to determine its size in millimeters.
A standard ruler is typically 30 centimeters long, which is equal to 300 millimeters. So there are 300 millimeters in a typical ruler.
Phytoplankton size can vary greatly, ranging from a few micrometers to several hundreds of micrometers in diameter. Some species are so small that they are visible only under a microscope, while others can be seen with the naked eye.
No. Why should you?
It takes 10 millimeters end-to-end to cover one centimeter.
if its a line it goes on forever so it has arrows on each end. For a segment you just make a dot, measure 46 millimeters and put another dot on that end. No arrows on a segment.