Impossible to tell. There are 800 separate species of Euglena.
3 to 5
1 meter equals 100 centimeters. 6 meters equals 600 centimeters. Each ruler is 30 centimeters. In order to find the answer you must divide 600 by 30. 20 rulers, end to end, would reach 6 meters.
20 million 1-nanometer objects, arranged end-to-end,would form a line 2 centimeters long.
72 inches
We would die out of age. And everything will come to a end.
At the end of this sentence we had to put a period.
Since the flagella drive the cell, they would be found on the rear.
Since the flagella drive the cell, they would be found on the rear.
Whenever it felt like endin now go watch jersey shore
back
There are one million nanometers in one millimeter.A nanometer is one billionth of a meter.You would have to line up roughly 25,400,000 nanometers end-to-endin order to cover 1 inch.
The disadvantages of euglena are mostly related to its structure and the fact that there is a debate that never ends on whether it is a plant or animal. The lack of routine genetic analysis is the main disadvantage.
euglena
Euglena is an elongated animalcule with anterior end slightly broad and posterior end slightly tapering The anterior end bears flagellum. The food particle is captured with the help of flagellum. It is brought near the anterior end which invaginate to form a food cup which becomes totally enclosed and finally internalized as a food vacuole.The digestion is intracellular.
The Euglena cell uses it's flagellum, which is like a tail that comes out from the back end of the cell, and whips it to move around through the water. Sometimes, the flagellum doesn't whip all at once and in the same movement, causing it to spiral as it moves in the general direction that it wants to.
These many.
Euglena also have an eyespot at the anterior end that detects light, it can be seen near the reservoir. This helps the euglena find bright areas to gather sunlight to make their food. The color of the eyespot is red.
Euglena have a red eyespot composed of carotenoid pigment granules. It is not thought to be photosensitive itself, but it filters sunlight that falls on a light-detective structure at the base of the flagellum, which only allows certain wavelengths to reach it. The eyespot partially blocks the light source as it rotates, which permits the Euglena find the light and move towards it. This process is known as phototaxis.