Difference between revisions of "Logarithmic Functions"

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==Logarithmic Functions==
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[[Image:Logexponential.svg|right|400px]]
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In mathematics you can find the inverse of an exponential function by switching x and y around:
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<math>y = b^x\,</math> becomes <math>x = b^y\,</math>. The problem arises on how to find the value  of y. The logarithmic function solved this problem. All conversions of logarithmic function into an exponential function follow the same pattern: <math>x = b^y\,</math> becomes <math>y = \log_b x\,</math>. If a log is given without a written b then b=10. Also with logarithmic functions, b > 0 and <math>b \ne 1</math>. There are 2 cases where the log is equal to x: <math>\log_bb^X = X\,</math> and <math>b^{\log_bX} = X\,</math>.
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===Laws of Logarithmic Functions===
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When X and Y are positive.
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* <math>\log_bXY = \log_bX + \log_bY\,</math>
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* <math>\log_b \frac{X}{Y} = \log_bX - \log_bY\,</math>
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* <math>\log_b X^k = k \log_bX\,</math>
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===Change of Base===
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When x and b are positive real numbers and are not equal to 1. Then you can write <math>\log_a x\,</math> as <math>\frac { \log_b x}{ \log_b a}</math>. This works for the natural log as well. here is an example:
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<math>\log_2 8 = \frac { \log 8}{ \log 2} = \frac {.9}{.3} = 3\,</math> now check <math>2^3 = 8\,</math>
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==Resources==
 
==Resources==
 
* [https://mathresearch.utsa.edu/wikiFiles/MAT1053/Logarithmic_Functions/MAT1053_M5.2Logarithmic_Functions.pdf Logarithmic Functions], Book Chapter
 
* [https://mathresearch.utsa.edu/wikiFiles/MAT1053/Logarithmic_Functions/MAT1053_M5.2Logarithmic_Functions.pdf Logarithmic Functions], Book Chapter
 
* [https://mathresearch.utsa.edu/wikiFiles/MAT1053/Logarithmic_Functions/MAT1053_M5.2Logarithmic_FunctionsGN.pdf Guided Notes]
 
* [https://mathresearch.utsa.edu/wikiFiles/MAT1053/Logarithmic_Functions/MAT1053_M5.2Logarithmic_FunctionsGN.pdf Guided Notes]

Revision as of 11:28, 4 October 2021

Logarithmic Functions

Logexponential.svg

In mathematics you can find the inverse of an exponential function by switching x and y around: becomes . The problem arises on how to find the value of y. The logarithmic function solved this problem. All conversions of logarithmic function into an exponential function follow the same pattern: becomes . If a log is given without a written b then b=10. Also with logarithmic functions, b > 0 and . There are 2 cases where the log is equal to x: and .

Laws of Logarithmic Functions

When X and Y are positive.

Change of Base

When x and b are positive real numbers and are not equal to 1. Then you can write as . This works for the natural log as well. here is an example:

now check

Resources