State Domain or range of the function selected as an

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example, show and explain how domain and range can be written in inequality notation, interval

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notation, on a number line.

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Step 1 :

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Rational function: A rational function is ratio of two polynomial functions.

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A rational function is in form of $\"\"$ , where $\"\"$ and $\"\"$ are polynomial function.

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Asymptote: A straight line that continually approaches a given curve but does not meet it at any finite distance.

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There are three types of asymptotes.

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1) Vertical asymptote.

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2) Horizontal asymptote.

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3) Oblique/ Slant asymptote.

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Example of a rational function with vertical and horizontal asymptote is $\"\"$ .

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Observe the rational function :

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Vertical asymptote of the rational function are obtained by equating denominator to zero.

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Vertical asymptote is $\"\"$ .

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If the degree of the numerator and the denominator are equal, then horizontal asymptote is defined as

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$\"\"$ .

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$\"\"$

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Therefore horizontal asymptote is $\"\"$ .

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Step 2 :

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The rational function is $\"\"$ .

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Domain :

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Domain is set of values of x which makes the function mathematically correct.

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Denominator of the function should not zero.

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$\"\"$

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Domain of the function is all values of x except $\"\"$ .

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Domain in inequality notation : $\"\"$ .

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Domain in interval notation : $\"\"$ .

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Range :

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Range is output value of function.

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Range of the function is all values of x except $\"\"$ .

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Range in inequality notation : $\"\"$ .

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Range in interval notation : $\"\"$ .

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Solution :

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Example of a rational function is $\"\"$ .

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Vertical asymptote is $\"\"$ .

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Horizontal asymptote is $\"\"$ .

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Domain in inequality notation : $\"\"$ .

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Domain in interval notation : $\"\"$ .

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Range in inequality notation : $\"\"$ .

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Range in interval notation : $\"\"$ .

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Explain how would you graph a rational function?.

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Step 1:

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Graphing of a rational function :

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1) Determine the domain by setting the denominator equal to zero.

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2) Determine vertical asymptote(s). Since the rational function is already in simplest form, the vertical asymptote(s) will occur at the domain restriction(s).

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3) Determine the horizontal asymptote.

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4) Determine the x and y-intercepts.

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5) Plot other points.

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6) Graph the function following from the step 1 to step 5.

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Step 2:

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Example of a rational function with vertical and horizontal asymptote is $\"\"$ .

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Domain of the function : $\"\"$ .

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Vertical asymptote is $\"\"$ .

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Horizontal asymptote is $\"\"$ .

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Determine the x and y-intercepts.

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Find the x-intercept of the function by substituting y=0.

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$\"\"$

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x-intercept is $\"\"$ .

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Find the y-intercept of the function by substituting x=0.

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$\"\"$

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y-intercept is $\"\"$ .

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Step 2:

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Draw the table for different values of x.

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$\"\"$	$\"\"$
$\"\"$	$\"\"$
$\"\"$	$\"\"$
$\"\"$	$\"\"$
$\"\"$	$\"\"$

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Graph :

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Graph the rational function using following specifications :

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Domain of the function : $\"\"$ .

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Vertical asymptote is $\"\"$ .

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Horizontal asymptote is $\"\"$ .

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x-intercept is $\"\"$ .

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y-intercept is $\"\"$ .

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Plot the points obtained in the table.

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$\"\"$

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Solution :

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Graph of the rational function is $\"\"$ .

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$\"\"$

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Model a function

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with Vertical Asymptote at x=3, and hole at x=5, horizontal asymptote at y= 4.

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Step 1:

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The function has vertical Asymptote at x=3 and hole at x=5.

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Hence the denominator of the function is $\"\"$ .

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Horizontal asymptote is at y= 4.

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If the degree of the numerator and the denominator are equal, then horizontal asymptote is defined as

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$\"\"$ .

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Therefore sample answer is $\"\"$ .

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$\"\"$

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Solution :

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Sample answer is $\"\"$ .

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