Mister Exam

Graphing y = ctg*√(x+ln(cos(x)))

v

The graph:

from to

Intersection points:

does show?

Piecewise:

The solution

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f(x) = cot(x)*\/ x + log(cos(x)) 
$$f{\left(x \right)} = \sqrt{x + \log{\left(\cos{\left(x \right)} \right)}} \cot{\left(x \right)}$$
f = sqrt(x + log(cos(x)))*cot(x)
The graph of the function
The points of intersection with the X-axis coordinate
Graph of the function intersects the axis X at f = 0
so we need to solve the equation:
$$\sqrt{x + \log{\left(\cos{\left(x \right)} \right)}} \cot{\left(x \right)} = 0$$
Solve this equation
The points of intersection with the axis X:

Numerical solution
$$x_{1} = -64.4026493985908$$
$$x_{2} = 54.9778714378214$$
$$x_{3} = -80.1106126665397$$
$$x_{4} = 98.9601685880785$$
$$x_{5} = 92.6769832808989$$
$$x_{6} = -42.4115008234622$$
$$x_{7} = -32.9867228626928$$
$$x_{8} = 26.7035375555107$$
$$x_{9} = 42.4115008234622$$
$$x_{10} = 73.8274273593601$$
$$x_{11} = -92.6769832808989$$
$$x_{12} = -17.2787595947439$$
$$x_{13} = -76.9690200129499$$
$$x_{14} = 61.261056745001$$
$$x_{15} = -51.8362787842316$$
$$x_{16} = -61.261056745001$$
$$x_{17} = 48.6946861306418$$
$$x_{18} = -20.4203522483337$$
$$x_{19} = 67.5442420521806$$
$$x_{20} = 76.9690200129499$$
$$x_{21} = 58.1194640914112$$
$$x_{22} = -36.1283155162826$$
$$x_{23} = -10.9955742875643$$
$$x_{24} = 39.2699081698724$$
$$x_{25} = -83.2522053201295$$
$$x_{26} = 86.3937979737193$$
$$x_{27} = -95.8185759344887$$
$$x_{28} = -54.9778714378214$$
$$x_{29} = -98.9601685880785$$
$$x_{30} = 89.5353906273091$$
$$x_{31} = 36.1283155162826$$
$$x_{32} = 70.6858347057703$$
$$x_{33} = 29.8451302091031$$
$$x_{34} = -86.3937979737193$$
$$x_{35} = -4.71238898038469$$
$$x_{36} = -73.8274273593601$$
$$x_{37} = -70.6858347057703$$
$$x_{38} = -58.1194640914112$$
$$x_{39} = 45.553093477052$$
$$x_{40} = 26.7035375555124$$
$$x_{41} = -67.5442420521806$$
$$x_{42} = -45.553093477052$$
$$x_{43} = 83.2522053201295$$
$$x_{44} = -1.5707963267949$$
$$x_{45} = -39.2699081698724$$
$$x_{46} = -7.85398163397448$$
$$x_{47} = 32.9867228626928$$
$$x_{48} = 4.71238898038481$$
$$x_{49} = 32.9867228626928$$
$$x_{50} = -48.6946861306418$$
$$x_{51} = 51.8362787842316$$
$$x_{52} = -14.1371669411541$$
$$x_{53} = -29.845130209103$$
$$x_{54} = -23.5619449019235$$
$$x_{55} = -26.7035375555132$$
$$x_{56} = 64.4026493985908$$
$$x_{57} = -89.5353906273091$$
$$x_{58} = 80.1106126665397$$
$$x_{59} = 1.5707963267949$$
$$x_{60} = 95.8185759344887$$
The points of intersection with the Y axis coordinate
The graph crosses Y axis when x equals 0:
substitute x = 0 to cot(x)*sqrt(x + log(cos(x))).
$$\sqrt{\log{\left(\cos{\left(0 \right)} \right)}} \cot{\left(0 \right)}$$
The result:
$$f{\left(0 \right)} = \text{NaN}$$
- the solutions of the equation d'not exist
Extrema of the function
In order to find the extrema, we need to solve the equation
$$\frac{d}{d x} f{\left(x \right)} = 0$$
(the derivative equals zero),
and the roots of this equation are the extrema of this function:
$$\frac{d}{d x} f{\left(x \right)} = $$
the first derivative
$$\sqrt{x + \log{\left(\cos{\left(x \right)} \right)}} \left(- \cot^{2}{\left(x \right)} - 1\right) + \frac{\left(- \frac{\sin{\left(x \right)}}{2 \cos{\left(x \right)}} + \frac{1}{2}\right) \cot{\left(x \right)}}{\sqrt{x + \log{\left(\cos{\left(x \right)} \right)}}} = 0$$
Solve this equation
Solutions are not found,
function may have no extrema
Horizontal asymptotes
Let’s find horizontal asymptotes with help of the limits of this function at x->+oo and x->-oo
True

Let's take the limit
so,
equation of the horizontal asymptote on the left:
$$y = \lim_{x \to -\infty}\left(\sqrt{x + \log{\left(\cos{\left(x \right)} \right)}} \cot{\left(x \right)}\right)$$
True

Let's take the limit
so,
equation of the horizontal asymptote on the right:
$$y = \lim_{x \to \infty}\left(\sqrt{x + \log{\left(\cos{\left(x \right)} \right)}} \cot{\left(x \right)}\right)$$
Inclined asymptotes
Inclined asymptote can be found by calculating the limit of cot(x)*sqrt(x + log(cos(x))), divided by x at x->+oo and x ->-oo
True

Let's take the limit
so,
inclined asymptote equation on the left:
$$y = x \lim_{x \to -\infty}\left(\frac{\sqrt{x + \log{\left(\cos{\left(x \right)} \right)}} \cot{\left(x \right)}}{x}\right)$$
True

Let's take the limit
so,
inclined asymptote equation on the right:
$$y = x \lim_{x \to \infty}\left(\frac{\sqrt{x + \log{\left(\cos{\left(x \right)} \right)}} \cot{\left(x \right)}}{x}\right)$$
Even and odd functions
Let's check, whether the function even or odd by using relations f = f(-x) и f = -f(-x).
So, check:
$$\sqrt{x + \log{\left(\cos{\left(x \right)} \right)}} \cot{\left(x \right)} = - \sqrt{- x + \log{\left(\cos{\left(x \right)} \right)}} \cot{\left(x \right)}$$
- No
$$\sqrt{x + \log{\left(\cos{\left(x \right)} \right)}} \cot{\left(x \right)} = \sqrt{- x + \log{\left(\cos{\left(x \right)} \right)}} \cot{\left(x \right)}$$
- No
so, the function
not is
neither even, nor odd