Short answer:
Scientific notation is the way that scientists easily handle very large numbers or very small numbers. For example, instead of writing 0.0000000056, we write 5.6 x 10⁻⁹.
Scientific notation is the expression of a number based on the largest exponent of 10 for its value, where the form is a decimal number A x 10ⁿ where A is greater than or equal to 1 and less than 10, so that when the multiplication is carried out the original number results.
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Long answer:
Scientific Notation
Scientific notation is a way to "easily" or "conveniently" write very large or very small numbers. As these numbers are frequently encountered in the sciences, the term scientific notationwas introduced to name this method of expressing these quantities so that they might be more easily grasped and understood.
Scientific notation allows them to be presented in a form where their magnitude can be seen more easily. Also it can simplify calculations by allowing you to concentrate on the significant digits rather than the orders of magnitude which are very easily dealt with separately. This latter advantage has somewhat diminished with the widespread availability of calculators and computers. But previously, people used log tables and slide rules for multiplication and division. These calculating devices depended on thinking of numbers in their scientific notation and utilizing the significant digits.
The Form of Scientific Notation The idea behind scientific notation is to write numbers in terms of powers of ten - either positive (for very large numbers), or negative (for very small ones). As an example, consider the mass of an electron, which is approximately 0.0000000000000000000000000001 grams. An easier way to write it uses the significant digit 1 and an exponent based on a multiple of ten. The number becomes the easily represented 1 x 10⁻²⁸ g.
The simple rule is to take your "numbers" and move the decimal point to the left or right so that only one figure is to the left of the decimal. Then write the rest of the significant digits to the right of the decimal, and tack on the appropriate power of ten (again, either positive or negative) to restore the proper value to the figure.
Coefficient and Base in Scientific Notation Scientific Notation also avoids the headache and potential errors of counting lots of zeros.
The number 123000000 in scientific notation is written as:
1.23 x 10⁸
The first number 1.23 is called the coefficient. It is always a single digit followed by a decimal point and then the rest, but usually only two digits.
The second number is called the base and in scientific notation must always be 10. In the number 1.23 x 10⁸ the number 8 is the exponent or power of ten.
How to Write a Number in Scientific Notation For large numbers :
1) Put the decimal after the first digit and drop the zeroes. In the number 123,000,000 the coefficient will be 1.23
2) Then write the times "x" and the base 10.
3) To find the exponent count the number of places from the "new" decimal point to the end of the number. In 123000000 there are 8 places. Therefore the exponent is 8.
There are some minor variations that have evolved to fill different needs, usually because not all fonts or printers allow superscripts: 123000000 can be written as:
1.23 E+11 or 1.23 X 10^11 or 1.23 x 10¹¹
For small numbers :
For numbers less than one we use a similar approach. These numbers all have negative exponents. For example 0.00000123 second (1.23 microseconds) is written:
1.23 E-6 or 1.23 x 10^-6 or 1.23 x 10⁻⁶
Take the original number 0.00000123 and shift the decimal point to the right until you get the coefficient in proper form, as above. The number of digits shifted is then the negative exponent.
Notes:
a) Numbers less than one all use negative exponents, but what about negative numbers, such as -0.04? We can write this as
-4.0 x 10⁻²
b) Always make sure the E is capitalized in 1.23 E-6, otherwise it can be confused with "e" the base of the natural log system.
c) Some scientific and engineering fields have special rules, such as electronics where scientific notation is usually in powers divisible by three, such as -3, 3, 6, 9, 12, etc; this is called engineering notation. This is because electronic components are made using standard SI prefixes such as kilo, micro, nano, or pico.
d) Usually, Scientific Notation is ignored if you want to keep numbers in common formats, such as 315 microseconds, instead of 3.15 x 10⁻⁴ seconds, but this is a matter of preference.
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" (50 km) 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.
This is one of those things that is so hard to teach and explain, but once you see it, it is actually pretty simple. Scientific notation is simply a different way to state a number besides the number itself. A number is written in scientific notation if it is in the form of 1≤N<10, N is the number. That form basically states that the number being multiplied (just hang on, I will explain that next) is between 1 (inclusive) and 10 (exclusive), including decimals. Say you are given the number 4100. It is easier to put it into product form first. The product form of 4100 would be 41×100 (41 times 100), because the number being multiplied has to be between 1 and 100. Now it is time to put it into scientific notation. It is going to be very similar to the product form. Since the number that is being multiplied FIRST is a number with some...what's the word... consistency? The first number is not 1 or 10 in this case, it would be 4.1 . You divide the first set of numbers by 10. So, 41/10 is 4.1. And now for the "hard" part. To get back to the 4100, you would have to multiply 4.1 by 1000 to get there. But you have to put the 1000 into a "power of 10" if you will. This is figured out by finding out how many times you would have to multiply 10 by itself. You would have to do 10 × 10 × 10 to get to 1000. You use 10 three times, so you would have 10³. And now the easiest part, putting it together. You have that 4.1, which will go first. And then, you multiply it by the 10³. Remember that the 10³ is equivalent to 1000, and you have to multiply 4.1 by 1000 to get the original number of 4100. So all together, 4100 in scientific notation is 4.1×10³.
Lets try it with another number, maybe seeing more numbers will make sense.
Here's a number- 7243.
The number between 1 and 10- 7.243 (times 1000 gets you back to the original number)
Remember, 1000= 10³
7.243 × 10³ is your final answer. Scientific notation is a way of writing numbers that are too big or too small to be conveniently written in decimal form.
In normalized scientific notation all numbers are written in the form a x 10^b (a times ten raised to the power of b) where a is a nonzero single-digit integer and b is an integer.
scientific notation is a way to simplify a number with a lot of zeros. :)
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Scientific notation is a way to deal with very large or very small numbers.
Numbers are split into two parts and expressed as a*10b
where 1 ≤ a < 10 and b is an integer.
For example,
12345 = 1.2345*104
123.45 = 1.2345*102
0.0012345 = 1.2345*10-3
when you break down a number for example 753,000 in scientififc notation is 7.53x10 to the fifth power
"Scientific notation" is used to display either very large or very small numbers. For example, the number 1 trillion would be written as 1,000,000,000,000 as an integer, but as 1E12 in scientific notation, The "E" represents an exponent, "times ten raised to the power of", and means 1 times 10 to the 12th power; or a 1 followed by 12 zeroes. 175 trillion would be 1.75E14, or 100,000,000,000,000.
One fairly famous large number (to chemists, at least) is Avogadro's Number, the number of atoms or molecules in a "mole" of that substance. That number is 6.023E23, or 6023 followed by 20 more zeroes.
Engineering notation is similar, except that only exponents divisible by 3 are used; so, 175 trillion would be 175E12.
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 1.49597871*10^8 in scientific notation
What is 270 gigabytes in a scientific notation
It is 8.9*10^-5 in scientific notation
It is "(scientific notation)".
It is: 2.7*10^0 in scientific notation
This number in scientific notation is 9.8x10-5.
The scientific notation for 89,450 is: 8.945 × 104
9.32 x 105 already is in scientific notation.9.32 x 105 already is in scientific notation.9.32 x 105 already is in scientific notation.9.32 x 105 already is in scientific notation.
There is no true opposite of scientific notation, but the closest answer is Standard Notation.
3.0054E-2 is the scientific notation.
There is no scientific notation for a pencil.
what is 385 in the scientific notation
It is: 1.841*106 in scientific notation
It can be written (in scientific notation) as 8.76x108.