Basically,mitochondrion is responsible for the formation for the formation of ATP from carbohydrates. Its longer length allows more entry of carbohydrates n exist of ATP. If it were longer in width, it would imply longer time in exiting as the molecule would be travelling a relatively longer distance to exit. its shorter width therefore allows ATP to exit quickeras well as carbohydrates to get to the matrix quicker.
Thats what i think.
A mitochondria is 5-10 micrometers big now the only question is how big is a micrometer????? Even I don't know!!!! A micrometer is about the length of an average bacterial cell. Which is 0.001 smaller than the width of a pencil tip. Hope that helps.
There are two types of cells, the eukaryotic cells which have a nucleus and prokaryotic which donÕt. The typical width of a cell is 1 to 5 micrometer for prokaryotic cells and 10 to 100 for eukaryotic cells.
What are the events that influence the width of each of sarcomere when a muscle being contracted and relaxed
Lenght to width
Mitochondria are about 0.5-1.5 micrometres in width and 3-10 micrometres in length. I can't find an approximate size for the endoplasmic reticulum, but if you compare it to the nucleus, the RER+SER together surround the nucleus and are slightly larger than the nucleus when put together.
A mitochondria is 5-10 micrometers big now the only question is how big is a micrometer????? Even I don't know!!!! A micrometer is about the length of an average bacterial cell. Which is 0.001 smaller than the width of a pencil tip. Hope that helps.
Micrometer or vernier caliper
It is 2-4 micrometers in length and 0.2-0.5 micrometer in width.
On average, a bacterium is 1 μm or 1 micrometer wide. Hope this helps!
millimetres (or tenths of millimetres, if you have a micrometer)
A rulerDepending on the degree of accuracy required: a ruler, vernier callipers, micrometer.
There are two types of cells, the eukaryotic cells which have a nucleus and prokaryotic which donÕt. The typical width of a cell is 1 to 5 micrometer for prokaryotic cells and 10 to 100 for eukaryotic cells.
A vernier caliper would be a good way, unless you need a more accurate measurement, in which case I might use a micrometer caliper.
6μm2
If you mean what unit, then any distance unit, such as inches, feet, meters, yards, etc. For tools, you can use a ruler, tape measure, micrometer, caliper, yardstick, meter stick, surveyors chain, etc. to measure width, depending on what you are measuring.
It is the length of the sloped side of the wedge divided by its width.
no, paper is actually 3 dimensional because it also contains a width of probably like a micrometer or a nanometer. No objects in this universe is a 2 dimensional figure because it will always have a length, width, and height, no matter how small. if it was to be on a piece of paper, than it could be considered 2D.