Algebra II Chapter 5

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Algebra II
Chapter 5
5.1 Quadratic Functions
The graph of a quadratic function is a parabola, as shown at rig.
Standard Form:
f ( x) = ax 2 + bx + c
⎛ b
⎛ −b ⎞ ⎞
vertex: ⎜ − , f ⎜ ⎟ ⎟
⎝ 2a ⎝ 2a ⎠ ⎠
a<0
graph opens down
a>0
graph opens up
b
axis of symmetry: x = −
2a
Larson
Text, Ch
5, p. 249
Graph each function given in Standard Form:
1. y = x 2 + 4x + 3
2. y = x 2 + 6x + 11
a=
a=
b=
b=
−
b
=
2a
⎛ b⎞
f ⎜− ⎟ =
⎝ 2a ⎠
−
b
=
2a
⎛ b⎞
f ⎜− ⎟ =
⎝ 2a ⎠
(x, y) =
(x, y) =
Vertex Form:
f ( x) = a( x − h) 2 + k
vertex: (h, k)
axis of symmetry: x = h
a<0
graph opens down
a>0
graph opens up
Graph each function given in Vertex Form.
1.
y = −(x − 1)2 + 4
2.
(h, k) =
(h, k) =
(x, y) =
(x, y) =
a=
a=
y = (x + 3)2 − 2
Intercept Form:
f (x) = a(x − r1 )(x − r2 )
x-intercepts: (r1 , 0) and (r2 , 0)
⎛r +r
⎛ r + r ⎞⎞
vertex: ⎜ 1 2 , f ⎜ 1 2 ⎟ ⎟
⎝ 2 ⎠⎠
⎝ 2
a<0
a>0
graph opens down
graph opens up
Graph each function in Intercept Form.
1.
f (x) = (x − 2)(x + 4)
2.
f (x) = −2(x + 1)(x − 5)
r1 =
r1 =
r2 =
r2 =
vertex =
vertex =
a=
a=
5.2 Solving Quadratic Equations by Factoring
Zero Product Property
Let A and B be real numbers or algebraic expressions. If AB = 0, then A
= 0 or B = 0.
Solve each equation by using the Zero Product Property:
1.
0 = (x − 1)(x − 3)
2.
0 = x(x + 4)
3.
0 = x2 − 9
4.
0 = x 2 + 3x − 18
5.
2x 2 − 17x + 45 = 3x − 5
6.
4x 2 + 12x − 7 = 0
7.
0 = 6x 2 − 16x + 8
8.
125x 2 − 5 = 0
5.3 Solving Quadratic Equations by Finding Square Roots
Simplify expressions using properties of square roots:
1)
48
2)
90
3)
3
16
4)
25
3
5)
6 i 10
6)
5
3
125
Solve the quadratic equation by finding square roots.
7)
2x 2 + 1 = 17
8)
x 2 − 9 = 16
9)
4x 2 + 7 = 23
10)
5(x − 1)2 = 50
11)
1
(x + 8)2 = 14
2
5.5 Completing the Square
Warm Up:
1.) f ( x) = x 2 − 4 x − 12
Vertex: ____________________
x intercepts: ________________
2.) y = ( x − 2) 2 − 16
Vertex: ______________
X intercepts: __________________
Standard Form:________________
3.) Factor the Perfect Square Trinomials.
A.) x 2 − 8 x + 16 =
B.) x 2 + 5 x +
25
=
4
C.) x 2 − 7 x +
49
=
4
Can you see any pattern on how the second term in factored form is
related to the middle term of the original quadratic?
Find the value of c that makes the quadratic equation a perfect square
trinomial. Then write the quadratic in vertex form.
1.) y = x 2 − 14 x + c
2.) y = x 2 +
10
x+c
3
Completing the Square to Graph a Quadratic Function
Rewrite the equation in vertex form by completing the square. Find the vertex. Then solve for the
x intercepts. Verify your x intercepts on the calculator. Graph the parabola.
1.) y = x 2 + 10 x − 3
Vertex Form :______________
Vertex:_________________
X intercepts: _________________
__________________
2.) y = x 2 + 6 x − 8
Vertex Form: _________________
Vertex:__________________
X intercepts : _____________
______________
3.) y = −x 2 + 4x − 1
Vertex Form: _________________
Vertex:__________________
X intercepts : _____________
______________
4.) y = 2 x 2 − 12 x + 14
Vertex Form: _________________
Vertex:__________________
X intercepts : _____________
______________
5.) y = 4x 2 − 6x + 1
Vertex Form : _________________
Vertex:__________________
X intercepts : _____________
_____________
6.) y = −3x 2 − 6x − 8
Vertex Form : _________________
Vertex:__________________
X intercepts : _____________
_____________
Completing the Square to solve a Quadratic Equation
Solve the following equations by completing the square.
1.)
x 2 − 12x = −28
2.)
x 2 + 3x − 1 = 0
3.)
−3x 2 + 24x = 27
4.)
4x 2 − 40x − 8 = 0
5.)
3x 2 − 26x + 2 = 5x 2 + 1
6.)
2x 2 + 3x + 1 = 0
7.)
−4x 2 − 2x = −5
8.)
−3x 2 + 5x = −7
5.4 Complex Numbers (part 1)
What happens when you try to solve:
x 2 = −1
???
By definition:
i = −1
i =
2
(
)
2
−1 = −1
Simplify the following radicals. Give your answer in terms of i.
−25
−12
−48
From Larson Textbook, page 272
Solving Equations over the Complex Numbers
Solve the equation for x, giving your answer in terms of i.
1.) x 2 + 64 = 0
Check:
2.) 2x 2 + 26 = −10
Check:
3.) 3x 2 + 10x = −26
4.) 6x 2 − 2x + 2 = 4x 2 + x
1
5.) − (x + 1)2 = 5
2
6.) −6(x + 5)2 = 120
Plot the complex numbers in the complex plane:
imaginary axis
1.
2 – 3i
2.
-3 + 4i
3.
2i
4.
-i + 7
real axis
Adding and subtracting complex numbers: Combine the real parts and
combine the imaginary parts.
1.
(3 + 4i) + (6 + i)
2.
(1− i) − (7 + 3i)
3.
(6 − 2i) − (5 + i) − (10 + 5i)
5.4 Complex Numbers (Part 2)
Multiplying Complex Numbers
Simplify each expression as a complex number in standard form: a + bi
1.
3i(5 − i)
2.
−7i(3 − 2i)
3.
(2 + 3i)(5 − 6i)
4.
(2 − 5i)(2 + 5i)
5.
(1+ i)(1− i)
Write each expression as a complex number in standard form: a + bi
1.
3
1+ i
2.
6+i
1− 2i
3.
5+i
−3 − i
4.
8−i
8+i
5.
6+i
2i
6.
6
i
Why do we need complex numbers?
Complex numbers are at the heart of understanding Fractal Geometry. See pages 275 and 276 of
your textbook. Fractal Geometry is used to model a variety of natural phenomena. Check out
this video: http://www.youtube.com/watch?v=ZbK92bRW2lQ
Complex numbers are also used in electronics to describe electrical circuits.
Complex numbers are used in a variety of higher level mathematics.
5.6 The Quadratic Formula
Find the x-intercepts for the following equations by completing the square :
y = −2 x 2 − 2 x + 7
y = ax 2 + bx + c
Quadratic Formula:
y = ax 2 + bx + c
−b ± b 2 − 4ac
x=
2a
Use the quadratic formula to solve for x in each equation.
1.
x 2 + 3x − 2 = 0
2.
−7x 2 + 2x + 9 = 0
a = _____ b = _____ c = _____
a = _____ b = _____ c = _____
x=
x=
3.
5x 2 + 9x = −x 2 + 5x + 1
a = _____ b = _____ c = _____
x=
Use the quadratic formula, factoring or taking square roots to solve for x in each equation. Use
your graphing calculator to check your solutions.
1.
5(x − 2)2 + 1 = 0
3.
2x 2 + 5x + 1 = 0
2.
2x 2 + 5x − 3 = 0
5.6 The Discriminant
For each equation, find the value of the discriminant, determine how many solutions, and then
find the solutions. Check your answers using your graphing calculator.
1.
x 2 − 6x + 10 = 0
2.
x 2 − 6x + 9 = 0
3.
x 2 − 6x + 8 = 0
5.6 Motion Problems
5.7 Graphing Quadratic Inequalities
Warm up:
Graph the following parabola by finding the vertex and the x-intercepts:
1.) y = x 2 − 2 x − 3
Vertex: _______________
x-intercepts: ____________
Now what if the original equation was written in the form:
y ≥ x 2 − 2x − 3
How would that change the graph?
Choose 2 points inside the parabola:
Choose 2 points outside the parabola:
1.)
1.)
Solution? _________
Solution? _________
2.)
2.)
Solution? _________
Solution? _________
Graph the following quadratic inequality or system of quadratic inequalities:
1.) y < 2 x 2 − 5 x − 3
Vertex: __________
X intercepts: _______
2.)
A.) y ≥ x 2 − 4
B.) y < − x 2 − x + 2
Equation A
Equation B
Vertex: _____
Vertex: _____
x ints: _____
x ints: ______
3.)
A.) y ≤ − x 2 + 9
B.) y > x 2 + 5 x − 6
Equation A
Equation B
Vertex: _____
Vertex: _____
x ints: _____
x ints: ______
5.7 Solving Quadratic Inequalities
Solve the quadratic inequality by a graphing method.
1.
2x 2 − 7x + 3 ≥ 0
2.
−x 2 + x + 5 < 0
Solve the quadratic inequality by an algebraic method.
3.
3x 2 − 16x + 5 ≤ 0
4.
−x 2 − 12x < 32
5.8 Modeling with Quadratic Functions
WRITING EQUATIONS OF QUADRATIC EQUATION
1.) Write an equation in vertex form for the parabola shown.
2.) Write the equation of the parabola in vertex form with vertex (-2,3) and
passes through the point (2,-5).
3.) Write an equation in standard form for the parabola shown.
4.) Write the standard form of the equation of the parabola with xintercepts of (-3,0) and (2,0) and passes through the point (-1,4).
5.) Write the standard form of the equation of the parabola with x1
1
intercepts of ( ,0) and ( − ,0) and passes through the point (-1,2).
3
5
6.) A study compared the speed x (in miles per hour) and the average fuel economy y ( in miles
per gallon) for cars. The results are shown in the table.
Speed,x
Fuel
economy,y
15
22.3
20
25.5
25
27.5
30
29
35
28.8
40
30
45
29.9
50
30.2
55
30.4
60
28.8
65
27.4
70
25.3
a.) Graph a scatter plot of Fuel Economy vs. Speed on your graphing
calculator. Do you think that a linear or quadratic regression model fits
the data better?
b.) Find a linear regression model for the data using your graphing calculator. Report the
equation of the linear model below. Report the r2 value for this model.
c.) Find a quadratic regression model for the data using your graphing calculator. Report the
equation of the quadratic model below. Report the r2 value for this model.
d.) Using the model that fits the data best, predict the fuel economy for a car travelling at a speed
of 80 mph.
e.) Find the speed that maximizes fuel economy.
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