1x1 = 1
2x2 = 4
3x3 = 9
4x4 = 16
5x5 = 25
6x6 = 36
you get the picture...49, 64, 81, 100, 121, 144, 169, etc.
Yes it is.Since the square of an integer is called a perfect square, then the square root of a perfect square must be an integer.
an integer
The integer is 26
90 is a not perfect square.
I have never before heard of a non-perfect square but I suppose it would be any non-zero number that is not the square of an integer. People sometimes say "perfect square" to mean an integer that is a square of an integer - I think the "perfect" is redundant but if you do not think "square" is clear by itself, say "integer square."
Yes it is.Since the square of an integer is called a perfect square, then the square root of a perfect square must be an integer.
A perfect square is a square of an integer (a whole number).
an integer
The integer is 26
Yes, a perfect square is a number that has an integer square root.
Given the prime factorization of an integer how can you determine if our integer is a perfect square?
90 is a not perfect square.
I have never before heard of a non-perfect square but I suppose it would be any non-zero number that is not the square of an integer. People sometimes say "perfect square" to mean an integer that is a square of an integer - I think the "perfect" is redundant but if you do not think "square" is clear by itself, say "integer square."
A perfect square.
a perfect square
A perfect square.
Because they are square/cube of an integer.