(C) Let $f(x) = x^2 - 3x + a$.For the roots $\alpha$ and $\beta$ to satisfy the condition $\alpha < 1 < \beta$,the value of the quadratic function at

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(C) Let $f(x) = x^2 - 3x + a$.For the roots $\alpha$ and $\beta$ to satisfy the condition $\alpha Substituting $x = 1$ into the equation:$f(1) = (1)^2 - 3(1) + a $1 - 3 + a $-2 + a $a Since $a 0)$,where $D = (-3)^2 - 4(1)(a) = 9 - 4a > 0 \Rightarrow a Thus,$a \in (-\infty, 2)$.

Competitive Quantitative Aptitude Algebra QUADRATIC EQUATION

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If $\alpha$ and $\beta$ are the roots of $x^2 - 3x + a = 0$,where $a \in R$ and $\alpha < 1 < \beta$,then:

A
$a \in (-\infty, 9/4)$
B
$a \in (2, 9/4)$
C
$a \in (-\infty, 2)$
D
None of these

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If $\alpha$ and $\beta$ are the roots of $x^2 - 3x + a = 0$,where $a \in R$ and $\alpha < 1 < \beta$,then:

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Solve the given two equations and choose the correct option.
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