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Letβs say I give you f x = 3π₯ I want you to find the inverse of this function Logarithms Logarithms Exponential Equations: π Logarithmic Equations: π₯ Base Exponent π π π₯ Base What it equals Exponent Reading Logarithms βͺ You read π π π₯ as: βthe log of base b of a is x. βͺ Another way to say this is βthe log is the exponents.β βͺ Just like in exponential equations, b > 0, b β 1. Example 1: Write the exponential equation in logarithmic form 26 = 64 You Try 1:Write the exponential equation in logarithmic form 45 = 1024 Example 2: Write the logarithmic equation in exponential form log 5 125 = 3 βͺ A logarithm with base 10 is called a common logarithm. If no base is written for the logarithm, the base is assumed to be 10. βͺ Ex: log 4 βͺ Special properties of logarithms: Logarithmic Form Exponential Form Example Logarithm of base b: log π π = π π1 = π log ππ ππ = π 101 = 10 Logarithm of 1: log π π = π π0 = 1 log ππ π = π 100 = 1 Evaluating Logarithms βͺ When it comes to evaluating logarithms, ask yourself this question, βwhat raised to the x power gives me this value?β βͺ Then decide what x is Example 3: Evaluate log 1000 You Try 2: Evaluate 1 log 4 4 Example 4:Evaluate log1000 1000 Using Inverses βͺ log π π π = π β m can be a numeric value or an expression βͺ π logπ π = π β m can be a numeric value or an expression βͺ When your bases arenβt the same, manipulate the base to help you. Example 5: Simplify the expression 5log5 π₯ You Try 3: Simplify the expression log 2 2π₯ Example 6: log 4 16π₯ Graphing Logarithms βͺ Remember earlier in the lesson I told you logarithms were the inverse of exponentials. βͺ When it comes to graphing logarithms, make a table of the logarithm in exponential form and switch your x and y values. βͺ Furthermore everything vertical becomes horizontal and everything horizontal becomes vertical (this is in respects to your asymptotes). Example 6: Find the inverse of the following and graph the inverse βͺ π β1 (π₯) = log 3 π₯ β 1 β 1 π π₯ = 3(π₯+1) + 1 -1 π π₯ = 3(π₯+1) + 1 4 3 2 0 4 1 10 2 28 x -2 x π β1 (π₯) = log 3 π₯ β 1 β 1 4 3 2 β2 4 0 10 1 28 2 β1 Homework: Page 277 17-30 all (29-30 donβt describe the domain and range of each function)
