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FUNCTIONS
GRAPHS OF FUNCTIONS; PIECEWISE DEFINED FUNCTIONS; ABSOLUTE VALUE
FUNCTION; GREATEST INTEGER FUNCTION OBJECTIVES:
• sketch the graph of a function;• determine the domain and range of a function from its graph; and• identify whether a relation is a function or not from its graph.• define piecewise defined functions;• evaluate piecewise defined functions;• define absolute value function; and • define greatest integer function
As we mentioned in our previous lesson, a function can be represented in different ways and one of which is through a graph or its geometric representation. We also mentioned that a function may be represented as the set of ordered pairs (x, y). That is plotting the set of ordered pairs as points on the rectangular coordinates system and joining them will determine a curve called the graph of the function. The graph of a function f consists of all points (x, y) whose coordinates satisfy y = f(x), for all x in the domain of f. The set of ordered pairs (x, y) may also be represented by (x, f(x)) since y = f(x).
Knowledge of the standard forms of the special curves discussed in Analytic Geometry such as lines and conic sections is very helpful in sketching the graph of a function. Functions other than these curves can be graphed by point-plotting.
To facilitate the graphing of a function, the following steps are suggested:• Choose suitable values of x from the domain of a function and • Construct a table of function values y = f(x) from the given values of x.• Plot these points (x, y) from the table.• Connect the plotted points with a smooth curve.
1
23)(.4
4)(.3
9)(.2
)(.1
2
2
2
x
xxxh
xxG
xxG
xxf
A. Sketch the graph of the following functions and determine the domain and range.
EXAMPLE:
23)(.6
9)(.5 2
xxg
xxh
SOLUTIONS:
(-3, 0) (3, 0)
(0, 3)(-2, 3)
(9, 0)(0, 4)
(-1, 1)
2)(.1 xxf xxF 9)(.2 4)(.3 2 xxG
1
23)(.4
2
x
xxxh
29)(.5 xxh 23)(.6 xxg
,0:
,:
R
D
,0:
9,:
R
D
,4:
,:
R
D
1,:
1,:
exceptR
exceptD 3,0:R
3,3:D
,3:
,:
R
D
When the graph of a function is given, one can easily determine its domain and range. Geometrically, the domain and range of a function refer to all the x-coordinate and y-coordinate for which the curve passes, respectively.
Recall that all relations are not functions. A function is one that has a unique value of the dependent variable for each value of the independent variable in its domain. Geometrically speaking, this means:
Consider the relation defined as {(x, y)|x2 + y2 = 9}. When graphed, a circle is formed with center at (0, 0) having a radius of 3 units. It is not a function because for any x in the interval (-3, 3), two ordered pairs have x as their first element. For example, both (0, 3) and (0, -3) are elements of the relation. Using the vertical line test, a vertical line when drawn within –3 x 3 intersects the curve at two points. Refer to the figure below.
A relation f is said to be a function if and only if, in its graph, each vertical line cuts or touches the curve at no more than one point. This is called the vertical line test.
(0, 3)
(3, 0)(-3, 0)
(0, -3)
DEFINITION: PIECEWISE DEFINED FUNCTION
if x<0
1x
x)x(f.1
2
0x if
A piecewise defined function is defined by different formulas on different parts of its domain.
Example:
3x
x9
x
)x(f.2 2
0x
1x 3x0
if
if
if
Sometimes a function is defined by more than one rule or by different formulas. This function is called a piecewise define function.
if x<0 f(-2), f(-1), f(0), f(1), f(2)
A. Evaluate the piecewise function at the indicated values.
1x
x)x(f.1
2
0x if
2)2x(
1x
x3
)x(f.2
f(-5), f(0), f(1), f(5)
0x if
if
if
2x0 2x
EXAMPLE:
B. Define g(x) = |x| as a piecewise defined function and evaluate g(-2), g(0) and g(2).
EXAMPLE:
Solution:
From the definition of |x|,
0x
0x
if
if
x
x)x(g
2)2(g
0)0(g
2)2()2(g
Therefore
Sketch the graph of the following functions and determine the domain and range.
EXAMPLE:
2
23)(.2
3
2
4
)(.1
x
xxf
xg
if
if
if
1
21
2
x
x
x
if
if
1
1
x
x
1 12
1 )(.3
2
xifx
xifxxf
DEFINITION: ABSOLUTE VALUE FUNCTION
Recall that the absolute value or magnitude of a real number is defined by
Properties of absolute value:
0 ,
0 ,
xifx
xifxx
yineaqualit triangleThe baba .4
valuesabsolute theof ratio theis ratio a of valueabsolute The 0b ,b
a
b
a .3
valuesabsolute theofproduct theisproduct a of valueabsolute The b aab .2
valueabsolute same thehave negative its andnumber A aa .1
The graph of the function can be obtained by graphing the two parts of the equation
separately. Combining the two parts produces the V-shaped graph. It may help to generate the graph of absolute value function by expressing the function without using absolute values.
xxf )(
0 if ,
0 if ,
xx
xxy
Example: Sketch the graph of the following functions and determine the domain and range.
5x23)x(f.2
1x3x)x(f.1
DEFINITION: GREATEST INTEGER FUNCTION
greatest integer less than or equal to x
The greatest integer function is defined by
x
Example: 0
1.0
3.0
9.0
1
1.1
2.1
9.1
2
1.2
4.3
4.3
9.0
0
0
0
0
1
1
1
1
2
2
3
-4
-1
Graph of greatest integer function.
xy Sketch the graph of
x xy 1x2
0x1 1x0 2x1 3x2
21012
x
y
o
EXERCISES:
22
2
2
4:.6
1
12:.5
3:.4
21:.3
1:.2
34:.1
xyh
x
xxyg
xyh
xyG
xyF
xyH
312
943.10
4:.9
23
211
13
:.8
312
31:.7
2
22
xxx
xxxy
xyG
xif
xif
xif
yf
xifx
xifxyF
A. Given the following functions, determine the domain and range, and sketch the graph:
EXERCISES:
B.Compute the indicated values of the given functions.
4t
4t4
4t
if
if
if
t
1t
3
)x(f
)16(andf),4(f),6(f
a.
x2
2x22x
ififif
314
)x(hb.
c.
)2(h and),e(h,2
h),2(h),3(h 2
3x
3x
if
if
2
4x)x(F
2
32
F and),3(F),0(F),4(F
C. Define H(x) as a piecewise defined function and evaluate H(1), H(2), H(3), H(0) and H(-2) given by,
H(x) = x - |x – 2|.
