8.37 x 10^1
It would not normally be expressed in scientific notation but if so: 4.003*10^0
They are the same so you do nothing!
To write 4100 in scientific notation, you need to move the decimal point so that there is only one non-zero digit before it. As 4100 can be written as 4.1 x 10^3.
Do you mean 300,000 if so then it is: 3.0*105
Shift a decimal place to the left, so the exponent for base 10 is 1. Hence, the term in scientific notation is: 4.5668 x 10
It would not normally be expressed in scientific notation but if so: 4.003*10^0
They are the same so you do nothing!
so they are smaller quicker and easier to write
To write 4100 in scientific notation, you need to move the decimal point so that there is only one non-zero digit before it. As 4100 can be written as 4.1 x 10^3.
Do you mean 300,000 if so then it is: 3.0*105
Shift a decimal place to the left, so the exponent for base 10 is 1. Hence, the term in scientific notation is: 4.5668 x 10
100 million in Scientific Notation = 1 x 108
Scientific notation is always written as a number (between 1 and 10) multiplied by a power of ten. For example: 107.6 in scientific notation would be 1.076 x 102 notice how the first number is between 1 and 10 and it is being multiplied by a power of ten. So the example you gave is not written in the same format and is thus not written in scientific notation. If you were to write it in scientific notation you would multiply the two numbers and then convert the answer to scientific notation and write it as: 1.0602904 x 103
1.98282 x 10^8 but there is no benefit to doing so.
There are many different kinds of sugar so there is no simple answer to the question.
In scientific notation it is 1.57821*10^5 and so it is 10 to the power of 5
387.Standard notation is our regular system of writing numbers. So, 387 is already in standard notation! Other kinds of notation include scientific notation and expanded notation.