Here is the whole thing:
Lets pretend we are going to use the number:
12,645,000,000
start with: 12645
then move the decimal point over to the left 4 times, making it: 1.2645. this number is greater than 1 but less than 10.
since you moved the decimal point 4 times, the scientific notation of this number is going to be your number-1.2645- times ten to the 4th power -104-
So your number is now in scientific notation: 1.2645x104
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To make your scientific notation standard notation, do the following:
1. look at your number: 5.8438x105
2. move the decimal point over to the right whatever your exponent is: 5-8-4-3-8-0
3. your new number should be: 584,380
IMPORTANT!
When your decimal reaches the end of your number, keep going! like this:
if the decimal point was here: 8.95 and you need to move it over 6 times, keep going! it should look like this:
8-91-52-03-04-05
so your decimal point would be 3 0's back and look like this:
895,000.
There you go!
Scientific notation is composed of three parts called the "coefficient" (or "significand"), the "base" and the "exponent". Numerically, the base is always the number 10 (ten). In the general form:-
a x 10b
a is the coefficient (or significand)
10 (ten) is the base
b is the exponent
Thus, the number 103000 can be expressed in scientific notation as:-
103 x 103
10.3 x 104
1.03 x 105
and all of these have the same numerical value. By convention, and for ease of recognition, it is common practice to use exponents that are multiples of 3 e.g.
103 106 109
The exponent can also be negative to express very small quantities e.g.
1 x 10-6
is the same as 0.000001, or one millionth.
1) Move the decimal until your number appears to be between 1 and 10 count the spaces that you move the decimal.
2) use the number of spaces as the exponent of 10 (the base)
3) if the original number was greater than 10, the exponent is positive, if the original number was less than 1 then the exponent is negative.
EX: 250,000 becomes 2.5 x 105
but 0.0025 becomes 2.5 x 10-3
All coefficients must be some number, n, so that n is greater than or equal to 1 but less than 10. 10 is always the base. All exponents of 10 are integers representing whether to divide or multiply by 10 to restore the number to 'unscientific' notation.
the two parts of the scientific notation are: the digit term and exponential term. digit term are also known as coefficient and the exponential term are consists of base and exponent.
In the standard form, the mantissa (the part before the "x 10") must be between 1 and 10, including 1, but not including 10.
There is no true opposite of scientific notation, but the closest answer is Standard Notation.
You do not simply calculate scientific notation for nothing. You need a number for which you calculate the scientific notation.
It is simply 1.72*10^2 in scientific notation
It is expressed as: 3.0*10^-9 in scientific notation
It is 1.49597871*10^8 in scientific notation
Three billion in Scientific Notation = 3 x 109
379,300 in Scientific Notation = 3.793 x 105
503,000 can be written as 5.03 × 105 in scientific notation.
0.003 in Scientific Notation = 3 x 10-3
1,000,325 in Scientific Notation = 1.000325 x 106
1,263 in Scientific Notation = 1.263 x 103
one thousand three hundred sixteen ten- thousandths
1.5 x 10-3 is already in scientific notation. The same figure is equal to 0.0015 in standard notation.
3x10-3
It is three million or 3.0*106 in scientific notation
3. x 10^-1
You multiply each ingredient by 300. There is no need for scientific notation.