It is an irrational number.
No it is a complex number the number 10i, which has an integer part (10) and an imaginary part (i), where i=square root of -1
no, it is actually not a real number. It falls under the category of a imaginary number which is the square root of -1 or as the variable i Because the square root of -4 is 2i because the square root of 4 is 2 and if you take i out it will maek it a positive so it goes like this -4 SR= 2i -9 square root= 3i and so on
There are infinitely many of them. They include square root of (4.41) square root of (4.42) square root of (4.43) square root of (4.44) square root of (4.45) square root of (5.3) square root of (5.762) square root of (6) square root of (6.1) square root of (6.2)
Every irrational number fits this category. Examples are pi, e, square root of 3, sine of 1.
It is an irrational number.
No it is a complex number the number 10i, which has an integer part (10) and an imaginary part (i), where i=square root of -1
no, it is actually not a real number. It falls under the category of a imaginary number which is the square root of -1 or as the variable i Because the square root of -4 is 2i because the square root of 4 is 2 and if you take i out it will maek it a positive so it goes like this -4 SR= 2i -9 square root= 3i and so on
The "i" part is the imaginary square root of negative one.
1. Pick the next number up that has a perfect square root, and take the square root of that. e.g if you want the square root of 17, pick 25, and take the square root to get 5. 2. Take the number from part 1) and subtract the square of that number minus the original number you wanted the square root of, divided by two times the number from part 1). e.g. if the number you originally wanted the square root of is A, and the thing you found in part 1) is F, evaluate this formula: F - (F2-A)/(2F). 3. Repeat over and over again, but use the number you found in part 2) instead of the one you found in part 1). 4. Repeat again and again until tired.
The square root of the square root of 2
The 8th root
square root of (2 ) square root of (3 ) square root of (5 ) square root of (6 ) square root of (7 ) square root of (8 ) square root of (9 ) square root of (10 ) " e " " pi "
There are infinitely many of them. They include square root of (4.41) square root of (4.42) square root of (4.43) square root of (4.44) square root of (4.45) square root of (5.3) square root of (5.762) square root of (6) square root of (6.1) square root of (6.2)
Every irrational number fits this category. Examples are pi, e, square root of 3, sine of 1.
Radicand
It's not a square if it has no root. If a number is a square then, by definition, it MUST have a square root. If it did not it would not be a square.