It is a^2 + b^2, or a*a + b*b.
The whole square of the sum of two terms, ( (a + b)^2 ), can be expanded using the formula: ( (a + b)^2 = a^2 + 2ab + b^2 ). This expression represents the square of ( a ) plus twice the product of ( a ) and ( b ), plus the square of ( b ). It highlights the relationship between the individual squares of the terms and their product, emphasizing how they combine in the squared result.
The product of ( (a + b) ) and ( (a - b) ) can be expressed using the difference of squares formula. Specifically, ( (a + b)(a - b) = a^2 - b^2 ). This means that multiplying these two expressions results in the difference between the square of ( a ) and the square of ( b ).
negative b plus or minus the square root of b squared minus 4AC all over 2 A
33
6a square plus b square
a square minus b square
(A+B)2 = (A+B).(A+B) =A2+AB+BA+B2 =A2+2AB+ B2 So the Answer is A + B the whole square is equal to A square plus 2AB plus B square. Avinash.
(a+b)cube = a cube + b cube + 3a square b + 3ab square
a square plus 2ab plus b square
The product of ( (a + b) ) and ( (a - b) ) can be expressed using the difference of squares formula. Specifically, ( (a + b)(a - b) = a^2 - b^2 ). This means that multiplying these two expressions results in the difference between the square of ( a ) and the square of ( b ).
'a' minus 'b' whole cube is equal to 'a cube' minus 'b cube' minus (3 a square b ) plus (3 a b square) . .. .....thanks
negative b plus or minus the square root of b minus 4 times ac all over 2 a
negative b plus or minus the square root of b squared minus 4AC all over 2 A
33
C Square
it's the bit in the square root sqrt of (b squared minus 4ac) when a,b and c are the values belonging to the equation ax(sqared) plus bx plus c
6a square plus b square