Presentation is loading. Please wait.

Presentation is loading. Please wait.

9.4 Properties of Logarithms. Since a logarithmic function is the inverse of an exponential function, the properties can be derived from the properties.

Similar presentations


Presentation on theme: "9.4 Properties of Logarithms. Since a logarithmic function is the inverse of an exponential function, the properties can be derived from the properties."— Presentation transcript:

1 9.4 Properties of Logarithms

2 Since a logarithmic function is the inverse of an exponential function, the properties can be derived from the properties of exponents. Properties of Logarithms If M, N, & b are positive real numbers, b ≠ 1 and r is any real number, then the “condensed form” the “expanded form”

3 Ex 1) Derive: Let

4 Using properties of logs, we can either expand or condense a logarithmic expression. Ex 2) Express in expanded form. a) b) Make up your own expression using log 4, p, q, and r. Write your problem on a whiteboard Give your whiteboard to someone close. Solve theirs. Return your board & evaluate their work.

5 Ex 3) Express in condensed form. a) b) Make another of your own using ln, x, & y. Trade & solve again.

6 Solving log equations Note: log b x = log b y iff x = y Also: Often, you will need to condense logs first in order to solve Ex 4) Determine the domain. Then solve. log 5 (x + 3) – log 5 (x – 2) = 1 must be positive x + 3 > 0 and x – 2 > 0 x > –3 and x > 2 Solving: D: {x: x > 2}

7 Real world formulas often must be rearranged to isolate the variable you are solving for. Ex 5) Formula relating height (h), in miles, and atmospheric pressure (P), in pounds per in 2 is: Solve for P

8 Homework #905 Pg 464 #1–43 odd, 2, 18, 34, 36, 44


Download ppt "9.4 Properties of Logarithms. Since a logarithmic function is the inverse of an exponential function, the properties can be derived from the properties."

Similar presentations


Ads by Google