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Examples: How to Graph a Piecewise Function Manually?

Example#1

Let f be the function defined by;

\[f\left( x\right) =\begin{cases}x-1,\space\space\space x <3\\ 5,\space\space\space x=3\\ 2x+1,\space\space\space3 <x\end{cases}\]

Determine the domain and range of f, and sketch its graph.

Solution:-

The domain of f is (-∞, +∞), the following figure shows the graph of ‘f’;

piecewise functions

it consists of the portion of the line y=x-1 for which x<3, the point (3,5), and the portion of the line y = 2x+1 for which 3<x. The function values are either numbers less than 2, the number 5, or numbers greater than 7. Therefore the range of f is the number 5 and the numbers (-∞, 2) ∪ (7, +∞).

Example#2

Let g be the function defined by;

\[f\left( x\right) =\begin{cases}3x-2,\space\space\space\space x < 1\\ x^{2}, \space\space\space\space\space 1\leq x\end{cases}\]

Determine the domain and range of g, and sketch its piecewise graph.

Solution:-

The domain of g is (-∞, +∞), following is the graph of the function;

piecewise-defined function

The graph contains the portion of the line y= 3x-2 for which x<1 and the portion of the parabola y = x2 for which 1 ≤ x. The range is (-∞, +∞).

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Example#3

The H is the function defined by;

\[H\left( x\right) =\begin{cases}x+3, \space\space\space\space x\neq 3\\ 2, \space\space\space\space x=3\end{cases}\]

Determine the domain and range of H and sketch its graph.

Solution:-

As H is defined for all x, its domain is (-∞, +∞), the graph is sketched below;

how to graph a piecewise function?

The range is the set of all real numbers except 6, so in terms of set, we can express range as ℝ-{6}.

Example#4

The piecewise function f is defined by;

\[f\left( x\right) =\begin{cases}x^{2}, \space\space\space\space x\neq 2\\ 7, \space\space\space\space x=2\end{cases}\]

Determine the domain and range of f and sketch its graph.

Solution:-

Because f is defined for all x, the domain is (-∞, +∞). The graph appearing below;

How to graph piecewise function through graphing calculator

consists of the point (2, 7) and all the points on the parabola y = x2 except (2, 4). The range is [0, +∞).

Example#5

Determine the domain and range of the absolute value function ‘f’ for which f(x) = |x| and sketch its graph.

Solution:-

From the definition of absolute value function |x|, f(x) is defined piecewise function as below,

\[f\left( x\right) =\begin{cases}x, \space\space\space\space x\geq 0\\ -x, \space\space\space\space x <0\end{cases}\]

The domain is (-∞, +∞). The graph of ‘f’ consists of two half-lines through the origin and above the x-axis.

absolute value function

one has slope 1 and the other has slope -1. The range is [0, +∞).

Example#6

The piecewise function f is defined by;

\[f\left( x\right) =\begin{cases}-2 \space\space\space\space , \space\space\space\space x\leq 3\\ 2 \space\space\space\space\space , \space\space\space\space 3 <x\end{cases}\]

Determine the domain and range of ‘f’ and sketch its graph.

Solution:-

The domain of g is (-∞, +∞), following is the graph of the function;

hole in graph

Example#7

A piecewise function f is defined by;

\[f\left( x\right) =\begin{cases}1-x^{2} \space\space\space\space , \space\space\space\space x\angle 0\\ 3+x \space\space\space\space , \space\space\space\space 0\leq x\end{cases}\]

Determine the domain and range of ‘f’ and sketch its graph.

Solution:-

The domain of g is (-∞, +∞), following is the graph of the function;

continuous graph

This is a continuous graph having a range (-∞, +∞).

Example#8

A piecewise function f is defined by;

\[f\left( x\right) =\begin{cases}6x+7 \space\space\space\space , \space\space\space\space x\leq -2\\ 4-x \space\space\space\space , \space\space\space\space -2 <x\end{cases}\]

Determine the domain and range of ‘f’ and sketch its graph.

Solution:-

The domain of g is (-∞, +∞), following is the graph of the function;

discontinuous graph

The range is (-∞, 6).

Example#9

Sketch the graph of the signum function (or sign function), denoted by “sgn” and defined piecewise as below;

\[sgn\left( x\right) =\begin{cases}-1 \space\space\space\space , \space\space\space\space x <0\\ 0 \space\space\space\space , \space\space\space\space x=0\\ 1 \space\space\space\space , \space\space\space\space 0 <x\end{cases}\]

sgn x is read “signum of ‘x'”.

Solution:-

The domain of sgn x is (-∞, +∞). Following is the graph of sign (signum) function;

signum function or sign function

The range comprises mere three integers as mentioned in the question i.e. {-1, 0, 1}.

Example#10

Sketch the graph and determine the domain and range of the following piecewise function h(x):

\[h\left( x\right) =\begin{cases}x+3 \space\space\space\space , \space\space\space\space x <-5\\ \sqrt{25-x^{2}} \space\space\space\space , \space\space\space\space -5\leq x\leq 5\\ 3-x \space\space\space\space , \space\space\space\space 5 <x\end{cases}\]

Solution:-

The domain is (-∞, +∞), following is how we have sketched the graph;

semi-circle graph

And the range is (-∞, -2) ∪ [0, 5].

How to use a graphing calculator to sketch any piecewise function?

There are various online and downloadable graphing calculators available that facilitate users to sketch piecewise functions, few are as follows:

Learn how to graph a piecewise function on Desmos graphing calculator

In the above video, I have selected a few of the examples that were solved and sketched manually in this article, and input their piecewise definitions with corresponding domains in order to obtain their graph, I have picked Example#1 here and tried to substitute commands on Desmos interface, let’s try to understand step by step.

STEP#1

  • Open Desmos graphing calculator
  • Type first piecewise domain and then the particular function separated by “:”
  • Enclose this command in { } brackets.
Desmos graphing calculator

STEP#2

As ‘3’ is not included in the first piecewise domain “x<3” this means that the subjective graph does not contain (3, 2), so we have to develop a “hole” there, for this purpose;

  • Click on the “+” icon at the top right, this will open the next expression tab.
  • Type (3, 2)
  • Press on the colorful circle next to (3,2), and you’ll get a panel from where you can select the hollow circle option.
  • Click on the hollow-point icon.

First piecewise is now accomplished.

STEP#3

  • Plot the point (3, 5), which was the second definition of the given piecewise function.
  • Keep it a solid point.

STEP#4

  • Finally type y= {3<x : 2x+1}
  • We will get another straight line representing the graph of f(x) = 2x+1 within the domain containing all values of x>3.
  • As “3” is not included in the domain of f(x)= 2x+1, so we are not going to include (3, 7).
  • Type (3,7) as another expression and make it a “hole”.

STEP#5

  • Let’s apply aforementioned strategies in Example#10

For more examples, you can watch my aforementioned video.

Uses and Applications of piecewise function

Piecewise functions in addition to Calculus magnanimously contribute to the mathematical modeling of various day-to-day real-life problems, which are later evaluated to get optimal and exact solutions. I have tried to compile some examples from the fields of accounting, Physics, Biology, etc, which would help you to get an idea about the applications and significance of piecewise functions.

  • In Denmark, income tax is assigned on the basis of income value, here f(x) is the function that represents the percentage of income that is deducted as tax, and ‘x’ defines the income value.
\[f\left( x\right) =\begin{cases}0 \space\space\space\space\space\space\space\space , \space\space\space\space x\angle \$ 10,000\\ 10\% \space\space\space\space , \space\space\space\space \$ 10,000\leq x\leq \$ 20,000\\ 15\% \space\space\space\space , \space\space\space\space \$ 20,000 >x\end{cases}\]
\[C\left( x\right) =\begin{cases}7x \space\space\space\space , \space\space\space\space 0 <x <10\\ 5x \space\space\space\space ,\space\space\space\space 11\leq x\leq 50\\ 3x \space\space\space\space , \space\space\space\space x >50\end{cases}\]

Where C(x) is the total cost of caps, and ‘x’ is the number of caps so-ordered.

  • Most of the time, there is just one copy of each gene in the early stage of growth of a eukaryotic cell, which is represented as Ni-1. whereas in bacteria, there are multiple DNA plasmids in each cell (more than 100). Now for the sake of simplicity, it is assumed that before cell division, genes or DNAs including plasmid DNA are duplicated. Here we have symbolized the cycle period of cell division as “?”, thus, the following piecewise function can be used to explain cell volume factor v(t).
\[v\left( t\right) =\begin{cases}e^{\left( \dfrac{t}{T-k}\right) \ln 2} \space\space\space\space\space , \space\space\space\space\space k\leq t <k+1\\ 1\space\space\space\space\space\space\space\space\space\space\space\space\space\space\space\space\space\space\space\space\space\space\space\space\space\space\space , \space\space\space\space\space t=k+1\end{cases}\]
  • A heavy-duty vehicle is moving on the highway with a variable velocity defined piecewise below;
\[v\left( t\right) =\begin{cases}5t \space\space\space\space , \space\space\space\space 0\leq t <15\\ 70 \space\space\space\space , \space\space\space\space 15\leq t <50\\ 250-3t \space\space\space\space , \space\space\space\space t\geq 50\end{cases}\]

Conclusion

Piecewise function is indeed a hallmark in the field of Calculus and is deeply involved in the concepts of limits, continuity, differential, and integral calculus. Beyond doubt, piecewise functions have simplified many complex targets of

  • Virtual strain fields
  • Artificial intelligence
  • Random field modeling
  • Optical Science
  • Pharmaceutical sciences (Pharmacokinetics)
  • Laser scanning for environmental sciences
  • Scientific Computation in Electrical Engineering
  • Sorting out issues in Geology and Mineralogy
  • Business, social, and life sciences

Everything, that we study in mathematics has its profound significance and substantial contribution in multifarious fields of real life, piecewise function is a clear example of this.

Related Articles:

Epsilon And Delta Definition Of Limit

Continuous Vs Discontinuous Functions

Squeeze Theorem & Continuity of Trigonometric Functions

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