"SREEDHARACHARYA'S RULE" (a.k.a. "Sridharacharya's formula") is known in the west as "the quadratic formula".
I'm sure the quadratic formula has many other names in many other places too...
There are 3 methods to find roots of quadratic equations
1. Factorization
2. Formula
3. Completing Square
Since a quadratic equation is a second degree polynomial equation, then the fundamental theorem of algebra states that two complex roots exist, counting multiplicity.
Ax^2 + Bx + C = o
Ax^2 + Bx = -C
(4A)(Ax^2 + Bx) = -4AC
4A^2x^2 + 4ABx + B^2 = -4AC + B^2
(2Ax + B)^2 = -4AC + B^2
2Ax + B = Sqrt( B^2 - 4AC)
x = -B Sqrt(B^2 - 4AC) / 2A
I'm sure the quadratic formula has many other names in many other places too...
There are 3 methods to find roots of quadratic equations
1. Factorization
2. Formula
3. Completing Square
Since a quadratic equation is a second degree polynomial equation, then the fundamental theorem of algebra states that two complex roots exist, counting multiplicity.
Ax^2 + Bx + C = o
Ax^2 + Bx = -C
(4A)(Ax^2 + Bx) = -4AC
4A^2x^2 + 4ABx + B^2 = -4AC + B^2
(2Ax + B)^2 = -4AC + B^2
2Ax + B = Sqrt( B^2 - 4AC)
x = -B Sqrt(B^2 - 4AC) / 2A
There are various analytical methods used for finding the roots of quadratic equations, one of the most common methods is the so-called quadratic formula and is derived by completing the square on the general expression shown above. The quadratic formula may be written thus,
The term under the square root is known as the discriminant and can be used to determine the form of the roots of the quadratic equation.
If then there are two distinct real roots. Furthermore if the discriminant is a perfect square, then the two roots are also rational.
If then there is one repeated real root.
If then there are two distinct non-real roots. These two roots are the complex conjugate of each other.
SREEDHARACHARYA'S RULE is better known as "completing the square". Perhaps it would be instructive to include a derivation of the quadratic formula using completing the square.
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