The concept of significant digits and scientific notation is pretty simple to grasp, so here are a few notes for you
A Significant Digit is a digit in a measurement that is certain, plus one digit that is an estimate
- Here's an example, there are three significant digits in the number 34.5. Two of which are certain, 3 and 4; and one which is estimated, 5.
- An example is 1040, how many significant digits are there? Well, to start off the 1 and the 0 are are exact and the 4 is an estimation. Therefore, there are only three significant digits. The final zero is a place holder zero and isn't significant.
- Here's an example, 951.0 + 1407 + 23.911 + 158.18 = 2540., the decimal place is there to show that the final zero is not a place holder, but significant.
- An example is, 3.052 x 2.10 x 0.75 = 4.8, which means that there are two significant digits and we only use two digits because the smallest number of significant digits in the equation is 2.
The number 123, 000,000,000 is written as 1.23 x 10^11
Writing a number in scientific notation is easy!
Put the decimal after the first digit and drop the zeros. To find the exponent count the number of places from the decimal to the end of the number
So, in 123,000,000,000 there are 11 places after the decimal place which determines the exponent, which is 11.
That wasnt so hard, now was it?
Try out some examples to perfect your knowledge of Significant digits and Scientific Notation
Scientific Notation
6.34 x 10^5 =
4.89 x 10^-6 =
Significant Digits
0.0026701 =
19.0550 =
to end off the lesson, heres a mind boggling video on the relative size of things in the universe. (:
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