The answer depends on what aspect of the human white blood cell you are referring to: their number in an average person, their mass, radius, volume, etc.
It is approx 6*10^-6 metres although the SI system allows one to use an appropriate prefix instead, and say 6 micrometres.
Scientific notation is a way to express numbers that are either very small or very large. In traditional notation the first kind would have a lot of 0s between the decimal point and the first significant figure whereas the second kind would have a large number of trailing 0s. The need for scientific notation arose from advances in various branches of science: atomic particles in physics or chemistry, astronomical or cosmological distances, size of single cell animals. Nowadays, even non-scientific values such as population, national debts (of some countries) could usefully utilize scientific notation.
Scientific notation is a way to express numbers that are either very small or very large. In traditional notation the first kind would have a lot of 0s between the decimal point and the first significant figure whereas the second kind would have a large number of trailing 0s. The need for scientific notation arose from advances in various branches of science: atomic particles in physics or chemistry, astronomical or cosmological distances, size of single cell animals. Nowadays, even non-scientific values such as population, national debts (of some countries) could usefully utilize scientific notation.Scientific notation is a way of representing numbers in the forma*10b where 1 ≤|a| < 10 is a decimal number and b is an integer (negative or positive).a is called the mantissa and b is called the exponent.The advantages of scientific notation are greater with very large and very small numbers, the notation can be used for any number.
Scientific notation is a way to express numbers that are either very small or very large. In traditional notation the first kind would have a lot of 0s between the decimal point and the first significant figure whereas the second kind would have a large number of trailing 0s. The need for scientific notation arose from advances in various branches of science: atomic particles in physics or chemistry, astronomical or cosmological distances, size of single cell animals. Nowadays, even non-scientific values such as population, national debts (of some countries) could usefully utilize scientific notation.Scientific notation is a way of representing numbers, in the forma*10b where 1 ≤ |a| < 10 is a decimal number and b is an integer (negative or positive).a is called the mantissa and b is called the exponent.
Scientific notation is a way to express numbers that are either very small or very large. In traditional notation the first kind would have a lot of 0s between the decimal point and the first significant digit whereas the second kind would have a large number of trailing 0s or non-digits implying a spurious degree of accuracy. The need for scientific notation arose from advances in various branches of science: atomic particles in physics or chemistry, astronomical or cosmological distances, size of single animal cell. Nowadays, even non-scientific values such as population, national debts (of some countries) could usefully utilize scientific notation.Numerically, it is to simplify very large or very small numbers.For instance, instead of having to write 1,000,000,000 you can write 10 9, the 9 being a superscript - a number witten smaller and slightly above the the initial number- some display may not show it correctly
0.000008 in Scientific Notation = 8 x 10-6
7.5 x 10-6
It is 7.6*10^-3 unspecified units.
A red blood cell. Scientific name, Erythrocyte
0.00001276 meters in Scientific Notation = 1.276 x 10-5 meters.
Erthrocytes
The scientific name for a white blood cell
It is approx 6*10^-6 metres although the SI system allows one to use an appropriate prefix instead, and say 6 micrometres.
You could try setting the format of the cell to show the number in scientific notation with a set amount of decimal places. That way it won't widen the cell, but your number will show in scientific notation, which may not be what you want. Another thing you can do is format the cell as text. The number will spill over into the next column, but the column won't widen out. If there is anything in the cell to the right of it, then the full number won't show. Those are two approaches you can take. For both the text and scientific notation formatting, you should apply the formatting before entering the values. Then it won't widen the column when you put in the data.
The scientific name for the Parenchyma cell is parenchyma cell.
Scientific notation is a way to express numbers that are either very small or very large. In traditional notation the first kind would have a lot of 0s between the decimal point and the first significant digit whereas the second kind would have a large number of trailing 0s. The need for scientific notation arose from advances in various branches of science: atomic particles in physics or chemistry, astronomical or cosmological distances, size of single cell animals. Nowadays, even non-scientific values such as population, national debts (of some countries) could usefully utilize scientific notation.
Scientific notation is a way to express numbers that are either very small or very large. In traditional notation the first kind would have a lot of 0s between the decimal point and the first significant figure whereas the second kind would have a large number of trailing 0s. The need for scientific notation arose from advances in various branches of science: atomic particles in physics or chemistry, astronomical or cosmological distances, size of single cell animals. Nowadays, even non-scientific values such as population, national debts (of some countries) could usefully utilize scientific notation.