Mister Exam
x^2-6x-7⩾0 inequation
The solution
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2 x - 6*x - 7 >= 0
$$\left(x^{2} - 6 x\right) - 7 \geq 0$$
x^2 - 6*x - 7 >= 0
Detail solution
Given the inequality:
$$\left(x^{2} - 6 x\right) - 7 \geq 0$$
To solve this inequality, we must first solve the corresponding equation:
$$\left(x^{2} - 6 x\right) - 7 = 0$$
Solve:
This equation is of the form
A quadratic equation can be solved
using the discriminant.
The roots of the quadratic equation:
$$x_{1} = \frac{\sqrt{D} - b}{2 a}$$
$$x_{2} = \frac{- \sqrt{D} - b}{2 a}$$
where D = b^2 - 4*a*c - it is the discriminant.
Because
$$a = 1$$
$$b = -6$$
$$c = -7$$
, then
Because D > 0, then the equation has two roots.
or
$$x_{1} = 7$$
$$x_{2} = -1$$
$$x_{1} = 7$$
$$x_{2} = -1$$
$$x_{1} = 7$$
$$x_{2} = -1$$
This roots
$$x_{2} = -1$$
$$x_{1} = 7$$
is the points with change the sign of the inequality expression.
First define with the sign to the leftmost point:
$$x_{0} \leq x_{2}$$
For example, let's take the point
$$x_{0} = x_{2} - \frac{1}{10}$$
=
$$-1 + - \frac{1}{10}$$
=
$$- \frac{11}{10}$$
substitute to the expression
$$\left(x^{2} - 6 x\right) - 7 \geq 0$$
$$-7 + \left(\left(- \frac{11}{10}\right)^{2} - \frac{\left(-11\right) 6}{10}\right) \geq 0$$
one of the solutions of our inequality is:
$$x \leq -1$$
Other solutions will get with the changeover to the next point
etc.
The answer:
$$x \leq -1$$
$$x \geq 7$$
$$\left(x^{2} - 6 x\right) - 7 \geq 0$$
To solve this inequality, we must first solve the corresponding equation:
$$\left(x^{2} - 6 x\right) - 7 = 0$$
Solve:
This equation is of the form
a*x^2 + b*x + c = 0
A quadratic equation can be solved
using the discriminant.
The roots of the quadratic equation:
$$x_{1} = \frac{\sqrt{D} - b}{2 a}$$
$$x_{2} = \frac{- \sqrt{D} - b}{2 a}$$
where D = b^2 - 4*a*c - it is the discriminant.
Because
$$a = 1$$
$$b = -6$$
$$c = -7$$
, then
D = b^2 - 4 * a * c =
(-6)^2 - 4 * (1) * (-7) = 64
Because D > 0, then the equation has two roots.
x1 = (-b + sqrt(D)) / (2*a)
x2 = (-b - sqrt(D)) / (2*a)
or
$$x_{1} = 7$$
$$x_{2} = -1$$
$$x_{1} = 7$$
$$x_{2} = -1$$
$$x_{1} = 7$$
$$x_{2} = -1$$
This roots
$$x_{2} = -1$$
$$x_{1} = 7$$
is the points with change the sign of the inequality expression.
First define with the sign to the leftmost point:
$$x_{0} \leq x_{2}$$
For example, let's take the point
$$x_{0} = x_{2} - \frac{1}{10}$$
=
$$-1 + - \frac{1}{10}$$
=
$$- \frac{11}{10}$$
substitute to the expression
$$\left(x^{2} - 6 x\right) - 7 \geq 0$$
$$-7 + \left(\left(- \frac{11}{10}\right)^{2} - \frac{\left(-11\right) 6}{10}\right) \geq 0$$
81 --- >= 0 100
one of the solutions of our inequality is:
$$x \leq -1$$
_____ _____
\ /
-------•-------•-------
x2 x1Other solutions will get with the changeover to the next point
etc.
The answer:
$$x \leq -1$$
$$x \geq 7$$
Solving inequality on a graph
Rapid solution
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Or(And(7 <= x, x < oo), And(x <= -1, -oo < x))
$$\left(7 \leq x \wedge x < \infty\right) \vee \left(x \leq -1 \wedge -\infty < x\right)$$
((7 <= x)∧(x < oo))∨((x <= -1)∧(-oo < x))
Rapid solution 2
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(-oo, -1] U [7, oo)
$$x\ in\ \left(-\infty, -1\right] \cup \left[7, \infty\right)$$
x in Union(Interval(-oo, -1), Interval(7, oo))