7-3 Logarithmic Functions Understand how to write, evaluate, and graph logarithmic functions Success Criteria: I can write logarithmic functions I can evaluate logs Today’s Agenda Do Now Check HW Lesson 7.3 HW #31 Do Now: - Solve for x 1. 2. 3. 4. = = = =
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7-3 Logarithmic Functions Understand how to write, evaluate, and graph logarithmic functions Success Criteria: I can write logarithmic functions I.
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7-3 Logarithmic FunctionsUnderstand how to write, evaluate, and graph logarithmic functions
Success Criteria: I can write logarithmic functions I can evaluate logs
Today’s Agenda Do Now Check HW Lesson 7.3 HW #31
Do Now: - Solve for x
1.
2.
3.
4.
𝒙=𝟒
𝒙=𝟑𝒙=𝟒
𝒙=𝟐
HW #30 Pages 447 – 448, # 13-15, 19-21, 33-35
How many times would you have to double $1 before you had $8?
You could use an exponential equation to model this situation. 1(2x) = 8. You may be able to solve
this equation by using mental math if you know 23 = 8. So you would have to double the dollar 3
times to have $8.
Do Not copy: Listen!
How many times would you have to double $1 before you had $512?
You could solve this problem if you could solve 2x = 512 by using an inverse operation that
undoes raising a base to an exponent equation to model this situation. This operation is called
finding the logarithm. A logarithm is the exponent to which a specified base is raised to obtain a
given value.
A logarithm base b of a positive number x satisfies the following definition:
is only defined for
is called the common log and can be written as
Key Concept
Write each exponential equation in logarithmic form.
Example 1: Converting from Exponential to Logarithmic Form
The base of the exponent becomes the base of the logarithm.
The exponent is the logarithm.
An exponent (or log) can be negative.
The log (and the exponent) can be a variable.
Exponential Equation
Logarithmic Form
35 = 243
25 = 5
104 = 10,000
6–1 =
ab = c
1
6
1
2
log3
243 = 5
1
2log
255 =
log1010,000 = 4
1
6log6 = –1
logac =b
Example 2: Converting from Logarithmic to Exponential Form
Write each logarithmic form as an exponential equation and evaluate for x.
The base of the logarithm becomes the base of the power.
The logarithm is the exponent.
A logarithm can be a negative number.
Any nonzero base to the zero power is 1.
Logarithmic Form
Exponential Equation
log99 = x
log2512 = x
log82 = x
log4 = x
logb1 = x
1
16
91 = 9
29 = 512
1
3
8 = 2
1
164–2 =
b0 = 1
Evaluating LogarithmsE?
Write a logarithmic equationConvert to an exponential equationWrite each side using the same basePower PropertySince the bases are the same, the
exponents must be equalSolve for
Extra PracticeEvaluate each logarithm.
a) b) c)
352
Assignment #31 (14pts)
Pages 456 – 457, # 13-19 Odd, 20-30 Even, 46-49
7-3 Logarithmic Functions Day 2Understand how to write, evaluate, and graph logarithmic functions
.
Success Criteria: I can write logarithmic functions I can evaluate logs