You cannot conclude anything.
2.25 is not a perfect square but its square roots are +/- 1.5 so it is perfectly possible for a number which is not a perfect square to have a rational square roots.
The square root of every perfect square is an integer. However, there are also square roots of numbers that are not perfect squares.
Integers which are the squares of integers are called perfect squares or square numbers. Perfect squares less than 101 are 1, 4, 9, 16, 25, 36, 49, 64, 81 and 100.
64 is the square of 8 and the cube of 4.
No. 2.25 is not a perfect square but it is rational.
No, 276 is not a perfect square. The nearest perfect squares are: 162 = 256 172 = 289
The square root of every perfect square is an integer. However, there are also square roots of numbers that are not perfect squares.
The square roots of perfect squares are the numbers that when squared create perfect squares as for example 36 is a perfect square and its square root is 6 which when squared is 36
None. Perfect squares, by definition, are the squares of counting numbers and these cannot be fractions.
Square numbers * * * * * Although "perfect square numbers" is more descriptive.
It does not matter! There are more numbers that are not perfect squares than there are perfect squares and the universe has not ground to a screeching halt!
They are called perfect squares.
They are perfect squares.
No. Square numbers (or perfect square numbers) are squares of integers. The perfect square numbers are 1, 4, 9, 16, 25, 36 ... 20 is not in the series.
No. The square roots of perfect squares are rational.
perfect squares
They are the perfect squares.
All numbers are important.