the perimeter of a figure is never squared, but the area of a figure is always squared. Hope this helped :)
To square a number, all you do is multiply a number by itself. Example: 4 squared = 4 x 4 = 16.
To find the original number when given the prime factors, we have to work backwards. First, we simplify into 2 squared times 3 squared. (2x2) x (3x3) Then we expand the brackets. 4 x 9 = 54 Therefore 54 is the number, with 2x2 and 3x3 as the prime factors.
I'm not sure if this is a trick question, or if there's more to it than what I am reading, but any numbers can be added to get to 54. For example, 52 + 2 = 54 25 + 29 = 54 There's lots of number groups that can get you this figure.
It is cubed.
It is: 54*54 = 2916
the perimeter of a figure is never squared, but the area of a figure is always squared. Hope this helped :)
That doesn't really make sense. If you figure out the square root of the number, the whole point is to find a number which, when squared, gives you back the original number. Therefore, there is no such thing as a "square root that can't be squared".
n^2 (figure number squared)
To square a number, all you do is multiply a number by itself. Example: 4 squared = 4 x 4 = 16.
99 squared, written 992, is the same as 99 x 99 (multiply the number with itself). You can simply do the multiplication.
To find the original number when given the prime factors, we have to work backwards. First, we simplify into 2 squared times 3 squared. (2x2) x (3x3) Then we expand the brackets. 4 x 9 = 54 Therefore 54 is the number, with 2x2 and 3x3 as the prime factors.
I'm not sure if this is a trick question, or if there's more to it than what I am reading, but any numbers can be added to get to 54. For example, 52 + 2 = 54 25 + 29 = 54 There's lots of number groups that can get you this figure.
It is cubed.
-51
It is the surface area of the solid.
Atomic number is the number of protons in an atom. If the atomic number is 54, then there are 54 protons. If it is a neutral atom, it will also have 54 electrons.