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  • Graphing y =:
  • x^3+6x^2-1
  • x^3-5x^2+3x
  • x^3-4x^2-3x+6
  • x³-3x
  • Identical expressions

  • log((one / two))*(x- two)
  • logarithm of ((1 divide by 2)) multiply by (x minus 2)
  • logarithm of ((one divide by two)) multiply by (x minus two)
  • log((1/2))(x-2)
  • log1/2x-2
  • log((1 divide by 2))*(x-2)
  • Similar expressions

  • log((1/2))*(x+2)

Graphing y = log((1/2))*(x-2)

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The graph:

from to

Intersection points:

does show?

Piecewise:

The solution

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f(x) = log(1/2)*(x - 2)
$$f{\left(x \right)} = \left(x - 2\right) \log{\left(\frac{1}{2} \right)}$$
f = (x - 2)*log(1/2)
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:
$$\left(x - 2\right) \log{\left(\frac{1}{2} \right)} = 0$$
Solve this equation
The points of intersection with the axis X:

Analytical solution
$$x_{1} = 2$$
Numerical solution
$$x_{1} = 2$$
The points of intersection with the Y axis coordinate
The graph crosses Y axis when x equals 0:
substitute x = 0 to log(1/2)*(x - 2).
$$\left(-2\right) \log{\left(\frac{1}{2} \right)}$$
The result:
$$f{\left(0 \right)} = 2 \log{\left(2 \right)}$$
The point:
(0, 2*log(2))
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
$$\log{\left(\frac{1}{2} \right)} = 0$$
Solve this equation
Solutions are not found,
function may have no extrema
Inflection points
Let's find the inflection points, we'll need to solve the equation for this
$$\frac{d^{2}}{d x^{2}} f{\left(x \right)} = 0$$
(the second derivative equals zero),
the roots of this equation will be the inflection points for the specified function graph:
$$\frac{d^{2}}{d x^{2}} f{\left(x \right)} = $$
the second derivative
$$0 = 0$$
Solve this equation
Solutions are not found,
maybe, the function has no inflections
Horizontal asymptotes
Let’s find horizontal asymptotes with help of the limits of this function at x->+oo and x->-oo
$$\lim_{x \to -\infty}\left(\left(x - 2\right) \log{\left(\frac{1}{2} \right)}\right) = \infty$$
Let's take the limit
so,
horizontal asymptote on the left doesn’t exist
$$\lim_{x \to \infty}\left(\left(x - 2\right) \log{\left(\frac{1}{2} \right)}\right) = -\infty$$
Let's take the limit
so,
horizontal asymptote on the right doesn’t exist
Inclined asymptotes
Inclined asymptote can be found by calculating the limit of log(1/2)*(x - 2), divided by x at x->+oo and x ->-oo
$$\lim_{x \to -\infty}\left(\frac{\left(x - 2\right) \log{\left(\frac{1}{2} \right)}}{x}\right) = - \log{\left(2 \right)}$$
Let's take the limit
so,
inclined asymptote equation on the left:
$$y = - x \log{\left(2 \right)}$$
$$\lim_{x \to \infty}\left(\frac{\left(x - 2\right) \log{\left(\frac{1}{2} \right)}}{x}\right) = - \log{\left(2 \right)}$$
Let's take the limit
so,
inclined asymptote equation on the right:
$$y = - x \log{\left(2 \right)}$$
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:
$$\left(x - 2\right) \log{\left(\frac{1}{2} \right)} = \left(- x - 2\right) \log{\left(\frac{1}{2} \right)}$$
- No
$$\left(x - 2\right) \log{\left(\frac{1}{2} \right)} = - \left(- x - 2\right) \log{\left(\frac{1}{2} \right)}$$
- No
so, the function
not is
neither even, nor odd