complex
A number of the form (a + bi) is a complex number.
Here's the following proof that "product of two odd numbers is odd". Proof: Any odd number can be written in the form 2p+1. Let your first odd number be written in this form. Let your second odd number be written as 2q+1 - essentially the same form as above, but since p may not equal q, separate variables are used. Thus: First odd number x second odd number = (2p+1)(2q+1) = 2pq + 2p +2q +1. The plus one on the end indicates that the product is odd, as required.
A plus number.
"a + bi" is a common way to write a complex number. Here, "a" and "b" are real numbers.Another common way to write a complex number is in polar coordinates - basically specifying the distance from zero, and an angle.
2,500,070,207
It is called a complex number.
A number of the form (a + bi) is a complex number.
This is called expanded form - where each of the place values is added together individually to create a whole number.
10
Yes, a+bi is standard form for a complex number. The numbers (a) and (b) are both real and i is √(-1)
The number "six hundred seven thousand, four hundred seventy" is written 607,470 in numerals.
Any even number can be written in the form 2n for some natural number n.Any odd number can be written as 2n+1 for a natural number nNow add an even to an odd.2n+2n+1=4n+1 which is 2(2n)+1 and this is the form for an odd number.
370.58
What is 1,000,000+500,000+8 written in standard form
Standard form is the sum of all the numbers in the expanded form. Using the example, the standard form for the expansion of that number would be 371,510.
The absolute value of negative 3, or -3, can be written as |-3|. Being the positive form of the number, the answer can be written as 3 or as +3.
It is 9.906