Math, asked by sushilsahu0517, 1 month ago

If the roots of the quadratic equation
(x-a) (x-b)+(x-b) (x-(c) + (x-C)(x-a) =0 are
equal. Then show that, a=b=c.

Answers

Answered by mathdude500

1

$\large\underline{\sf{Solution-}}$

Given quadratic equation is

$\sf \: (x - a)(x - b) + (x - b)(x - c) + (x - a)(x - c) = 0 \\ \\$

$\sf \: {x}^{2} - (a + b)x + ab + {x}^{2} - (b + c)x + bc + {x}^{2} - (c + a)x + ac = 0 \\ \\$

$\sf \: 3{x}^{2} - (a + b + b + c + c + a)x + ab + bc+ca = 0 \\ \\$

$\sf \: 3{x}^{2} - 2(a + b + c)x + ab + bc+ca = 0 \\ \\$

So, on comparing with Ax² + Bx + C = 0, we get

$\:\boxed{\begin{aligned}& \qquad \:\sf \:A=3 \qquad \: \\ \\& \qquad \:\sf \: B= - 2(a + b + c)\qquad\\ \\& \qquad \:\sf \: C=ab + bc + ca\qquad\end{aligned}} \qquad \: \\ \\$

As it is given that, equation has real and equal roots.

$\sf \: Discriminant, D = 0 \\ \\$

$\sf \: {B}^{2} - 4AC = 0 \\ \\$

$\sf \: {[ - 2(a + b + c)]}^{2} - 4(3)(ab + bc + ca) = 0 \\ \\$

$\sf \: {4(a + b + c)}^{2} - 4(3)(ab + bc + ca) = 0 \\ \\$

$\sf \: {(a + b + c)}^{2} - 3(ab + bc + ca) = 0 \\ \\$

$\sf \: {a}^{2} + {b}^{2} + {c}^{2} + 2ab + 2bc + 2ca - 3ab - 3bc - 3ca = 0 \\ \\$

$\sf \: {a}^{2} + {b}^{2} + {c}^{2} - ab - bc - ca = 0 \\ \\$

can be rewritten as

$\sf \:2( {a}^{2} + {b}^{2} + {c}^{2} - ab - bc - ca) = 0 \\ \\$

$\sf \:2{a}^{2} + 2{b}^{2} + 2{c}^{2} - 2ab - 2bc - 2ca= 0 \\ \\$

$\sf \: {a}^{2} + {a}^{2} + {b}^{2} + {b}^{2} + {c}^{2} + {c}^{2} - 2ab - 2bc - 2ca= 0 \\ \\$

$\sf \: ( {a}^{2} + {b}^{2} - 2ab) + ( {b}^{2} + {c}^{2} - 2bc) + ( {c}^{2} + {a}^{2} - 2ca) = 0 \\ \\$

$\sf \: {(a - b)}^{2} + {(b - c)}^{2} + {(c - a)}^{2} = 0 \\ \\$

$\implies\sf \: a - b = 0 \: \: and \: \: b - c = 0 \: \: and \: \: c - a = 0 \\ \\$

$\implies\sf \: a = b \: \: and \: \: b = c \: \: and \: \: c = a \\ \\$

$\implies\sf \: a = b = c\: \\ \\$

$\rule{190pt}{2pt}$

Concept Used :-

Nature of roots :-

Let us consider a quadratic equation ax² + bx + c = 0, then nature of roots of quadratic equation depends upon Discriminant (D) of the quadratic equation.

If Discriminant, D > 0, then roots of the equation are real and unequal.

If Discriminant, D = 0, then roots of the equation are real and equal.

If Discriminant, D < 0, then roots of the equation are unreal or complex or imaginary.

Where,

Discriminant, D = b² - 4ac

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