tuesday bellwork pair-share your homework from last night we will review this briefly remember,...
TRANSCRIPT
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Tuesday Bellwork
•Pair-Share your homework from last night •We will review this briefly
•Remember, benchmark tomorrow
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This week:• Monday: Logarithmic Functions and Their Graphs• Tuesday: “ “ cont. • Wednesday: Benchmark• Thursday: Properties of Logarithms• Friday: Review/Quiz OR Solving Exponential with Logarithms
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The standard• F.BF.5. Understand the inverse relationship between
exponents and logarithms and use this relationship to solve problems involving logarithms and exponents.
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Logarithmic Functions and Their Graphs
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Properties of logarithmsSection 3.3
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Consider
This is a one-to-one function, therefore it has an inverse.
The inverse is called a logarithm function.
Example: Two raised to what power is 16?
The most commonly used bases for logs are 10:
and e:
is called the natural log function.
is called the common log function.
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Definition of Logarithmic Function
b > 0; b 1
Logarithmic Form Exponential Form
y = logb x x = by
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The log to the base “b” of “x” is the exponent to which “b” must
be raised to obtain “x”
y = log10 x
y = log e x
x = 10 y
x = e y
Section I on HW
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Change from Logarithmic To Exponential Form
Log 2 8 = 3 8 = 23
5 = 25 ½Log 25 5 = ½
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Change from Exponential To Form Logarithmic
49 = 7 2 log 7 49 = 2
1/5 = 5 –1 log 5 (1/5) = -1
Section II on HW
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Using the Definition of log!
1. log3 x = 4
2. log100.01 = x
3. logx49 = 2
x = 34 = 81
0.01 = 10x
10-2 = 10x x = -2
49 = x2 x=7
Section III on HW
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YOU use the definition of log:
Write each equation in its equivalent exponential form.a. 2 = log5 x b. 3 = logb 64 c. log3 7 = y
Solution With the fact that y = logb x means by = x,
c. log3 7 = y or y = log3 7 means 3y = 7.
a. 2 = log5 x means 52 = x.Logarithms are exponents.Logarithms are exponents.
b. 3 = logb 64 means b3 = 64.Logarithms are exponents.Logarithms are exponents.
Section III on HW
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How to evaluate expressions: Pre-Calc Cookbook:
1.Set expression equal to y.
2.Identify the ‘b’ & ‘x’
3.Use the formula to convert to exponential form.
4.Make common bases (if not already)
5.Solve for y.
Similar to HW section IV
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Example: Pre-Calc Cookbook:
1.Set expression equal to y.
2.Identify the ‘b’ & ‘x’
3.Use the formula to convert to exponential form.
4.Make common bases (if not already)
5.Solve for y.
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a. log2 16 b. log3 9 c. log25 5
Solution
log25 5 = 1/2 because 251/2 = 525 to what power is 5?c. log25 5
log3 9 = 2 because 32 = 93 to what power is 9?b. log3 9
log2 16 = 4 because 24 = 162 to what power is 16?a. log2 16
Logarithmic Expression Evaluated
Question Needed for Evaluation
Logarithmic Expression
YOU Evaluate the expressions:
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Properties of Logarithmic FunctionsIf b, M, and N are positive real numbers, b 1, and p and x are real numbers, then: Log15 1 = 0
Log10 10 = 1
Log5 5x = x
3log x = x 3
150 = 1
101 = 10
5x = 5x
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Properties of Common Logarithms
General Properties Common Logarithms
1. logb 1 = 0 1. log 1 = 0
2. logb b = 1 2. log 10 = 1
3. logb bx = 0 3. log 10x = x4. b logb x = x 4. 10 log x = x
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Examples of Logarithmic Properties
log 4 4 = 1
log 8 1 = 0
3 log 3 6 = 6
log 5 5 3 = 3
2 log 2 7 = 7
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Properties of Natural Logarithms
General Properties Natural Logarithms
1. logb 1 = 0 1. ln 1 = 0
2. logb b = 1 2. ln e = 1
3. logb bx = 0 3. ln ex = x4. b logb x = x 4. e ln x = x
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Examples of Natural Logarithmic Properties
e log e 6 = e ln 6 = 6
log e e 3 = 3
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Standard Based Questions:
Use the inverse properties to simplify:
27 ln 4
ln
7.1 log
1. ln 2.
3. 4. log1000
5. log10 6. 10
x x
x
e
e e
e
Section V on HW
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Tuesday Independent Practice
Logarithm Functions HW3: •Complete Sections I, II, III, IV, & V.
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WEDNESDAYBENCHMARK!!!
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ThursdayThursday
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Thursday Bellwork Answer the following questions on a separate
piece of paper that you can turn in?
What did you think of the benchmark?
What do we need more practice on? What do we have mastery of?
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Characteristics of the Graphs of Logarithmic Functions of the Form f(x)
= logbx The x-intercept is 1. There is no y-intercept.
The y-axis is a vertical asymptote. (x = 0)
If 0 < b < 1, the function is decreasing. If b > 1, the function is increasing.
The graph is smooth and continuous. It has no sharp corners or edges.
-2 -1
6
2 3 4 5
5
4
3
2
-1
-2
6
f (x) = logb xb>1
-2 -1
6
2 3 4 5
5
4
3
2
-1
-2
6
f (x) = logb x0<b<1
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Since logs and exponentials are inverses the domain and range switch!…the x values and y values are exchanged…
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Graph and find the domain of the following functions.
y = ln x
x y
-2-101234
.5
cannot takethe ln of a (-) number or 0
0ln 2 = .693ln 3 = 1.098ln 4 = 1.386
ln .5 = -.693
D: x > 0
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f
x y = 2 x
–31
8
–21
4
–11
2
0 1
1 2
2 4
3 8
f –1
x = 2 y
1
8 –3 1
4 –2 1
2 –1
1 0
2 1
4 2
8 3
Ordered pairs reversed
y
x
y
5 10 –5
5
10
–5
f -1
x = 2y
or y = log2x
f y = 2x
y = x
DOMAIN of = (– , ) = RANGE of
RANGE of f = (0, ) = DOMAIN of
Logarithmic Function with Base 2
f
f -1
f -1
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Using Calculator to Evaluate: ln(10)
> Calculate
> ‘ctrl’ then ‘ex’ => ln( )
> ’10’ => ln(10)
> ‘enter’ => ln(10)
> ‘menu’
> ’2: Number’
> ‘1: Convert to Decimal’ => Ans>Decimal
> ‘enter’ => 2.30259
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We Evaluate: ln(12.4)
> Calculate
> ‘ctrl’ then ‘ex’ => ln( )
> ’10’ => ln(12.4)
> ‘enter’ => ln(12.4)
> ‘menu’
> ’2: Number’
> ‘1: Convert to Decimal’ => Ans>Decimal
> ‘enter’ => 2.5177
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YOU Calculator to Evaluate:
1. ln(45) =
2. ln(0.234) =
3. ln(-3.45) =
1. = 3.80666
1. = -1.45243
2. = non-real number
Similar to section VI in HW
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Homework: Complete ALL Logarithm Functions HW 3
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FRIDAY BELLWORK
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Copyright © Cengage Learning. All rights reserved.
3.3 Properties of Logarithms
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What You Should Learn
• Rewrite logarithms with different bases.
• Use properties of logarithms to evaluate or rewrite logarithmic expressions.
• Use properties of logarithms to expand or condense logarithmic expressions.
• Use logarithmic functions to model and solve real-life problems.
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Properties of Logarithms
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Properties of Logarithms
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Example 1 – Using Properties of Logarithms
Write each logarithm in terms of ln 2 and ln 3.
a. ln 6 b. ln
Solution:
a. ln 6 = ln(2 3)
= ln 2 + ln 3
b. ln = ln 2 – ln 27
= ln 2 – ln 33
= ln 2 – 3 ln 3
Rewrite 6 as 2 3.
Product Property
Quotient Property
Rewrite 27 as 33
Power Property
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Rewriting Logarithmic Expressions
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Rewriting Logarithmic Expressions
The properties of logarithms are useful for rewriting logarithmic expressions in forms that simplify the operations of algebra. This is true because they convert complicated products, quotients, and exponential forms into simpler sums, differences, and products, respectively.
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Example 2 – Expanding Logarithmic Expressions
Use the properties of logarithms to expand each expression.
a. log45x3y
b. ln
Solution:
a. log45x3y = log45 + log4x3 + log4 y
= log45 + 3 log4x + log4y
Product Property
Power Property
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Example 2 – Solution
Rewrite radical usingrational exponent.
Power Property
Quotient Property
cont’d
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Rewriting Logarithmic Expressions
In Example 5, the properties of logarithms were used to expand logarithmic expressions.
In Example 6, this procedure is reversed and the properties of logarithms are used to condense logarithmic expressions.
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Example 3 – Condensing Logarithmic Expressions
Use the properties of logarithms to condense each expression.
a. log10x + 3 log10(x + 1)
b. 2ln(x + 2) – lnx
c. [log2x + log2(x – 4)]
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Example 3 – Solutiona. log10x + 3 log10(x + 1) = log10x1/2 + log10(x + 1)3
b. 2 ln(x + 2) – ln x = ln(x + 2)2 – ln x
Power Property
Product Property
Quotient Property
Power Property
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Example 3 – Solution
c. [log2x + log2(x – 4)] = {log2[x(x – 4)]}
= log2[x(x – 4)]1/3
cont’d
Power Property
Product Property
Rewrite with a radical.
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Homework: Properties of Logs HW4
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Monday, March 23, 2015
• F.BF.5. Understand the inverse relationship between exponents and logarithms and use this relationship to solve problems involving logarithms and exponents.
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3.4 Exponential and Logarithmic Equations
One-to-One Properties
Inverse Property
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One-to-One Properties
If x 6 = x y , then 6 = y
If ln a = ln b, then a = b
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Inverse Property
Given e x = 8; solve for xTake the natural log of each side.
ln e x = ln 8Pull the exponent in front
x ( ln e) = ln 8(since ln e = 1)
x = ln 8
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Solve for x
3 x = 64
take the natural log of both sides
ln 3 x = ln 64
x( ln 3) = ln 64
x = ln 64 = 3.7855..
ln 3
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Solve for x
e x – 8 = 70
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Solve for x
e x – 8 = 70
e x = 78
ln e x = ln 78
x = ln 78
x = 4.3567..
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Solve for a
( ¼ ) a = 64
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Solve for K
Log 5 K = - 3
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Solve for x
2 x – 3 = 32
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Solve for x
3501
400
xe
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Solve for x
e 2.724x = 29
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Solve for a
ln a + ln ( a + 3) = 1
Will need the quadratic formula
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Solve for x one more time
e 2x – e x – 12 = 0
factor
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Solve for x one more time
e 2x – e x – 12 = 0
factor
(e x – 4)(e x + 3 ) = 0
So e x – 4 = 0 or e x + 3 = 0
e x = 4 e x = - 3
x = ln 4 x = ln -3
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Homework:Solving Exponential Equations with Logarithms HW5