The value represented by (1.002 \times 10^{-5}) in standard decimal notation is (0.00001002). This is achieved by moving the decimal point five places to the left, which corresponds to the negative exponent.
The decimal in standard notation of two and five hundredths is 2.05
you put a number with a decimal
It represents a repeating decimal
Ten and eleven hundredths in standard form is written as 10.11. This notation represents the whole number 10 and the decimal fraction 0.11, which corresponds to eleven hundredths.
5,200,000,000.0
The decimal in standard notation of two and five hundredths is 2.05
In standard notation it is 4.75*101.
The standard decimal notation is 8,754.4The scientific notation is: 8.7574 x 10^3
Standard notation is simply the number written out in decimal, so 44.3 billion in standard notation would be 44,300,000,000
you put a number with a decimal
It is 0.00038
It represents a repeating decimal
5,200,000,000.0
0.000027 in standard form is written as 2.7 x 10^-5. This is because the decimal point is moved five places to the right to convert the number into scientific notation, and the exponent represents the number of places the decimal point was moved.
In decimal notation, it would be 18.75.
Scientific notation (also called standard form or exponential notation) is a way of writing numbers that accommodates values too large or small to be conveniently written in standard decimal notation. Standard notation refers to expressing a number in its 'normal' form. For example, the standard notation of 150 is simply 150.
Decimal notation:16634.7331Scientific notation: 1.66347331 x 10^4