Mister Exam
Other calculators
- Square Inequality Step-by-Step
- Inequality with the module Step by Step
- Logarithmic inequality online
-
How to use it?
- Inequation:
- 2(x-8)>5x-2
- 4x^2-9x-9=>0
- 1,5^((x^2+x-20)/x)<=1,5^0
- 2/((1/2)*x*sqrt(51))+((1/2)*x*sqrt(5)-2)/((1/2)*x*sqrt(5)-3)-2>=0
- Graphing y =:
-
tan(x)
- Limit of the function:
-
tan(x)
- Derivative of:
-
tan(x)
-
Identical expressions
- tan(x)<-√ three / three
- tangent of (x) less than minus √3 divide by 3
- tangent of (x) less than minus √ three divide by three
- tanx<-√3/3
- tan(x)<-√3 divide by 3
-
Similar expressions
- tan(x/4)<-1
- tan(x)<+√3/3
- tg(x)>(-√3)/3
tan(x)<-√3/3 inequation
The solution
You have entered
[src]
___
-\/ 3
tan(x) < -------
3
$$\tan{\left(x \right)} < \frac{\left(-1\right) \sqrt{3}}{3}$$
tan(x) < (-sqrt(3))/3
Detail solution
Given the inequality:
$$\tan{\left(x \right)} < \frac{\left(-1\right) \sqrt{3}}{3}$$
To solve this inequality, we must first solve the corresponding equation:
$$\tan{\left(x \right)} = \frac{\left(-1\right) \sqrt{3}}{3}$$
Solve:
Given the equation
$$\tan{\left(x \right)} = \frac{\left(-1\right) \sqrt{3}}{3}$$
- this is the simplest trigonometric equation
This equation is transformed to
$$x = \pi n + \operatorname{atan}{\left(- \frac{\sqrt{3}}{3} \right)}$$
Or
$$x = \pi n - \frac{\pi}{6}$$
, where n - is a integer
$$x_{1} = \pi n - \frac{\pi}{6}$$
$$x_{1} = \pi n - \frac{\pi}{6}$$
This roots
$$x_{1} = \pi n - \frac{\pi}{6}$$
is the points with change the sign of the inequality expression.
First define with the sign to the leftmost point:
$$x_{0} < x_{1}$$
For example, let's take the point
$$x_{0} = x_{1} - \frac{1}{10}$$
=
$$\left(\pi n - \frac{\pi}{6}\right) + - \frac{1}{10}$$
=
$$\pi n - \frac{\pi}{6} - \frac{1}{10}$$
substitute to the expression
$$\tan{\left(x \right)} < \frac{\left(-1\right) \sqrt{3}}{3}$$
$$\tan{\left(\pi n - \frac{\pi}{6} - \frac{1}{10} \right)} < \frac{\left(-1\right) \sqrt{3}}{3}$$
the solution of our inequality is:
$$x < \pi n - \frac{\pi}{6}$$
$$\tan{\left(x \right)} < \frac{\left(-1\right) \sqrt{3}}{3}$$
To solve this inequality, we must first solve the corresponding equation:
$$\tan{\left(x \right)} = \frac{\left(-1\right) \sqrt{3}}{3}$$
Solve:
Given the equation
$$\tan{\left(x \right)} = \frac{\left(-1\right) \sqrt{3}}{3}$$
- this is the simplest trigonometric equation
This equation is transformed to
$$x = \pi n + \operatorname{atan}{\left(- \frac{\sqrt{3}}{3} \right)}$$
Or
$$x = \pi n - \frac{\pi}{6}$$
, where n - is a integer
$$x_{1} = \pi n - \frac{\pi}{6}$$
$$x_{1} = \pi n - \frac{\pi}{6}$$
This roots
$$x_{1} = \pi n - \frac{\pi}{6}$$
is the points with change the sign of the inequality expression.
First define with the sign to the leftmost point:
$$x_{0} < x_{1}$$
For example, let's take the point
$$x_{0} = x_{1} - \frac{1}{10}$$
=
$$\left(\pi n - \frac{\pi}{6}\right) + - \frac{1}{10}$$
=
$$\pi n - \frac{\pi}{6} - \frac{1}{10}$$
substitute to the expression
$$\tan{\left(x \right)} < \frac{\left(-1\right) \sqrt{3}}{3}$$
$$\tan{\left(\pi n - \frac{\pi}{6} - \frac{1}{10} \right)} < \frac{\left(-1\right) \sqrt{3}}{3}$$
___
/1 pi \ -\/ 3
-tan|-- + -- - pi*n| < -------
\10 6 / 3
the solution of our inequality is:
$$x < \pi n - \frac{\pi}{6}$$
_____
\
-------ο-------
x1
Solving inequality on a graph
Rapid solution
[src]
/pi 5*pi\ And|-- < x, x < ----| \2 6 /
$$\frac{\pi}{2} < x \wedge x < \frac{5 \pi}{6}$$
(pi/2 < x)∧(x < 5*pi/6)
Rapid solution 2
[src]
pi 5*pi (--, ----) 2 6
$$x\ in\ \left(\frac{\pi}{2}, \frac{5 \pi}{6}\right)$$
x in Interval.open(pi/2, 5*pi/6)