A is proportional to C4.
C Square
(a+b+c)²=a²+b²+c²+ 2ab+2bc+2ac
Since a squared plus b squared equals c squared, that is the same as c equals the square root of a squared plus b squared. This can be taken into squaring and square roots to infinity and still equal c, as long as there is the same number of squaring and square roots in the problem. Since this question asks for a and b squared three times, and also three square roots of a and b both, they equal c. Basically, they cancel each other out.
1.774225a
a square + b square = c square this is the formula for Pythagoras in maths. it is to find the hypotenuse of a right-angled triangle
C Square
It's the square root of a2+b2. It cannot be simplified. It is NOT a+b. The answer is c square.
You do a^2 x b^2 = c^2 where a=the base, b= the height and c=the diagonal.More info: take the square of "a" and the square of "b" and multiply them together, then take your answer and find the square root of it, that is "c" (the diagonal).
Yes.
This question cannot be answered. You will have to give me the number to the square root. * * * * * a = ±sqrt(c^2 - b^2)
a
(a+b+c)²=a²+b²+c²+ 2ab+2bc+2ac
Since a squared plus b squared equals c squared, that is the same as c equals the square root of a squared plus b squared. This can be taken into squaring and square roots to infinity and still equal c, as long as there is the same number of squaring and square roots in the problem. Since this question asks for a and b squared three times, and also three square roots of a and b both, they equal c. Basically, they cancel each other out.
A trinomial of the form ax2 + bx + c , where a is a square, c is a square and b = 2(sq root a)(sq root b). b can be a negative also. ex: x2 + 6x + 9 , note a = 1 or 16x2 - 40x + 25
The answer to this question is a square. Hope I helped.
A square has four vertices. Each corner of the square is one vertex. For example, a square with sides ABCD will have vertices A, B, C, and D.
Dead weight per square foot is calculated in the following fashion: a = building weight b = square footage of building c = building dead weight/ SF c = a/b