It's True, I have the same homework
No, 8 is a multiple of 4 and NOT a perfect square.
Integral square roots are multiplied by themselves.
Multiples of 8 are numbers that can be expressed as 8n, where n is an integer. Perfect squares are numbers that are the result of multiplying an integer by itself, such as 1, 4, 9, 16, etc. To find which multiples of 8 are perfect squares, we need to find the numbers that can be expressed as 8n = m^2, where m is an integer. The only perfect square that is a multiple of 8 is 64, which is 8*8.
A perfect square (commonly square number) is an integer that is the square of another integer. That is to say, a perfect square is the product of any whole number multiplied by itself.Commonly remembered perfect squares include, 1 (1x1), 4 (2x2), 9 (3x3), 16 (4x4) and 25 (5x5).
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
The squares of whole numbers are called perfect squares. A perfect square is a number that can be expressed as the product of an integer multiplied by itself. For example, 1, 4, 9, 16, and 25 are perfect squares because they can be written as 1^2, 2^2, 3^2, 4^2, and 5^2, respectively.
The square root of every perfect square is an integer. However, there are also square roots of numbers that are not perfect squares.
To determine if 224 is a perfect square, we need to find its square root. The square root of 224 is approximately 14.96. Since the square root is not a whole number, 224 is not a perfect square. Perfect squares are numbers that are the result of an integer multiplied by itself, such as 9 (3x3) or 16 (4x4).
Itself or 7 because 700*700 = 490,000 and 700*7 = 4,900 both of which are perfect squares
No. It is the number of squares multiplied by the area of each square. This is equivalent to specifying the measurement units.No. It is the number of squares multiplied by the area of each square. This is equivalent to specifying the measurement units.No. It is the number of squares multiplied by the area of each square. This is equivalent to specifying the measurement units.No. It is the number of squares multiplied by the area of each square. This is equivalent to specifying the measurement units.
Oh, dude, perfect squares are like those numbers that you can easily find the square root of, you know? So, for 60, the factors that are perfect squares would be 1, 4, and 9 because 1x1=1, 2x2=4, and 3x3=9. It's like math but with a sprinkle of fun, right?
No. There are infinitely many perfect squares so there is no "the" perfect square.