The expression (10e6) represents (10 \times 10^6), which equals 10,000,000. In standard form, it is written as 10 million.
Both 1e6 and 10e6 represent the number 1,000,000, but they differ in their scale. 1e6 is simply a compact way of writing 1 million, while 10e6 indicates 10 million. The difference lies in the multiplier applied to 1 million.
actually it is 8.95x10^8. 10E6 is equal to 10 x 10^6 or 10^7. Unless they meant 1E6.
10 of 6 equals to 1000000
It is equivalent to: 9,840,000 expressed in scientific notation
The answer is 2.144 x 10E6 (The 'E' stands for exponent.)
The range of wavelengths for infrared radiation is beween 700 nm and 10e6 nm.
17 Jun 2010 @ 0800 hours; you should be able to view the list at: (See the link Below)
One million. 1 ms = 1*10E6 ns = 10**6 ns. 1 ns = 1*10E-6 ms = 10**-6 ms.
A GB is 1000MB. Therefore 7475MB is 7.475GB. Here is the scientific notation. 10e12 = TB (Terabyte) 10e9 = GB (Gigabyte) 10e6 = MB (Megabyte) 10e3 = KB (Kilobyte) *Note: e is equivalent to Exponent of (number).
"If 10000km is 10 x 10 to the power of 6m what is 500km?" Let me reword this to make sense. If 10000km in E notation is 10E6 meter, what is 500km? 5E5 meter
"Every million "letters" (nucleotides) take up a linear distance of only 3.4 × 10E5 nm (0.034 cm)....The [haploid] human genome...contains about 3 x 10E9 nucleotide pairs, organized as 24 chromosomes (22 different autosomes and 2 different sex chromosomes), and thus consists of 24 different DNA molecules - each containing from 50 × 10E6 to 250 x 10E6 nucleotide pairs of DNA. DNA molecules of this size are 1.7 to 8.5 cm long when uncoiled, and even the slightest mechanical force will break them once the chromosomal proteins have been removed." Thus, using the conversion factor of 0.034 cm per million (10E6) nucleotides, the uncoiled length of the total human genome would be approximately 102 cm, or 40 inches. This is pretty impressive if you consider that "A typical [dipoid] human cell thus contains ...about 6 × 10E9 nucleotide pairs of DNA....By comparison, 6 x 10E9 letters..would occupy more than a million pages [of a typical book].", as described in the Molecular Biology of the Cell.
The wavelength of a 900 MHz signal in free space is approximately 0.333 meters. This can be calculated using the formula: wavelength = speed of light / frequency, where the speed of light is 3 x 10^8 meters per second.