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Scientific notation is normally used for numbers that are either far to large or far to small to be written conveniently in decimal notation.A,B
For example the Earth's mass is approximately: 5,973,600,000,000,000,000,000,000.0 kg
In scientific notation this would be written as:
5.9736 x 1024 kg.
In normalised scientific notation numbers are written in the form:A,B
a x 10n
Where:
a is a number between 1 and 10
n is a positive or negative whole number.
In engineering notation, the n value is commonly in the form of multiples of 3. In this way the number will always explicitly match the corresponding SI prefixes.B
For example a distance of 50,000 m would be written as:
Scientific Notation: 5 x 104 m
Engineering notation: 50 x 103 m
In this example 103 corresponds to the SI prefix "kilo"C as such the engineering notation could be directly described verbally as "fifty kilometres" whereas scientific notation yields the much more unwieldy "five times ten to the power four metres" which is much less intuitively easy to understand, even though it is exactly the same distance.
Guidance on converting to and from scientific notation is given in the related links. Specifically References A and B.
References:
A Scientific notation - Engineering Maths Help from the 'mathcentre' Academic Website.
B Scientific notation: Wikipedia Entry.
C List of SI prefixes: Wikipedia Entry.
Please see related links.
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How do you write 18.4 in scientific notation?
Such small numbers aren't usually expressed in scientific notation but it is: 1.84*101
How do you write 33.4millions in numbers?
It is: 33,400,000 or as 3.34*107 in scientific notation
If the scientific notation stops at centillion why don't the numbers stop too?
Scientific notation doesn't stop at a centillion. 1 centillion in scientific notation is 1 * 10303, but you can also write 1 * 10304 or even 9 * 109999999 in scientific notation. There is no upper limit to the numbers you can write in scientific notation.
Why do you have scientific notation?
Scientific notation makes it easier to express numbers of extremely small or large magnitude. For example, we could either say that something is .00000000068 meters long, or simply use scientific notation to write it as 6.8 x 10-10 meters. There is also an "engineering" notation which is similar to scientific notation, but all exponents are multiples of 3. This is so we can introduce prefixes such as nano, micro, kilo, giga, etc. The number 573000 would be written as 5.73 x 105 in scientific notation, and 573 x 103 in engineering notation.
How can you express negative numbers in scientific notation?
Write the mantissa as a negative number.
