Scientific notation is a way of representing numbers, usually very large or very small, in the form a*10^b where 1 <= |a| < 10 is a decimal number and b is an integer (negative or positive). a is called the mantissa and b is called the exponent. To convert a number to scientific notation: · If the number has no decimal point, then add one at the end. · Then move the decimal point to just after the first digit while counting the number of places you have moved it. · The mantissa of the new number, formed after moving the decimal point is a. · If the original number is negative, then so is a. · The number of places to the left that the decimal point was moved is b. If it was moved to the right, then bis negative. For example:
23045.06 becomes 2.304506*10^4 -23045.06 becomes -2.304506*10^4 0.00023004 becomes 2.3004*10^-4
The exponential notation for the standard number 327.83 is: 3.2783 × 102
8.24x10^6
262,144 = 2.62144 x 10^5262144 is standard notation for 86 (exponential notation), where 8 is the base and 6 is the exponent.
4.565e+5
It is 15^3 is exponential notation,3000 + 200 + 70 + 5 in expanded notation and 3.375^10^3 in standard form.
The exponential notation and standard notation for 2x2x2x2x2 is:2532
The exponential notation for the standard number 327.83 is: 3.2783 × 102
8.24x10^6
579.85 in exponential notation is: 5.7985 × 102 or5.7985E2
Scientific notation or exponential notation.
6.99
262144 is standard notation for 86 (which is your exponential notation). Here 8 is your base and 6 is your exponent.
262,144 = 2.62144 x 10^5262144 is standard notation for 86 (exponential notation), where 8 is the base and 6 is the exponent.
4.565e+5
It is 15^3 is exponential notation,3000 + 200 + 70 + 5 in expanded notation and 3.375^10^3 in standard form.
98.473 = 9.8473e+1
0.007621 = 7.621000e-3