Answer :
9e +10 => 9
is the first whole value number
=> Where e stands for the number of zeroes next to 9
=> where +10 means that there are positive (whole numbers) 10 zeroes next to 9
Therefore, 9e +10
=> 90 000 000 000
There are 10 zeroes next to 9
Notes: if in the given situation shown (-) , Means, it’s a decimal number
But if it shows (+), it’s a whole number.
=> Where e stands for the number of zeroes next to 9
=> where +10 means that there are positive (whole numbers) 10 zeroes next to 9
Therefore, 9e +10
=> 90 000 000 000
There are 10 zeroes next to 9
Notes: if in the given situation shown (-) , Means, it’s a decimal number
But if it shows (+), it’s a whole number.
For this case we have the following number:
[tex]9e + 10 [/tex]
We have a number with exponential notation of the form:
[tex]ae + b [/tex]
The exponential or scientific notation consists of writing a number from a product between 2 other numbers, one called coefficient and the other, power of base 10, whose exponent is an integer.
Where,
a: represents the value of the coefficient
b: power base 10
We have then that the number is equivalent to:
[tex]9e + 10 = 9 * 10 ^ {10} 9e + 10 = 90, 000, 000, 000[/tex]
Answer:
[tex]9e + 10 = 90, 000, 000, 000[/tex]
[tex]9e + 10 [/tex]
We have a number with exponential notation of the form:
[tex]ae + b [/tex]
The exponential or scientific notation consists of writing a number from a product between 2 other numbers, one called coefficient and the other, power of base 10, whose exponent is an integer.
Where,
a: represents the value of the coefficient
b: power base 10
We have then that the number is equivalent to:
[tex]9e + 10 = 9 * 10 ^ {10} 9e + 10 = 90, 000, 000, 000[/tex]
Answer:
[tex]9e + 10 = 90, 000, 000, 000[/tex]