Difference between revisions of "Logarithm"
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* The solutions to the system of equations | * The solutions to the system of equations | ||
+ | <math>\log_{225}x+\log_{64}y=4</math> | ||
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<math>\log_{x}225-\log_{y}64=1</math> | <math>\log_{x}225-\log_{y}64=1</math> | ||
are <math>(x_1,y_1)</math> and <math>(x_2,y_2)</math>. Find <math>\log_{30}\left(x_1y_1x_2y_2\right)</math>. | are <math>(x_1,y_1)</math> and <math>(x_2,y_2)</math>. Find <math>\log_{30}\left(x_1y_1x_2y_2\right)</math>. |
Revision as of 17:48, 16 July 2023
Contents
Videos On Logarithms
Powerful use of logarithms
Some of the real powerful uses of logarithms, come down to never having to deal with massive numbers. ex. : would be a pain to have to calculate any time you wanted to use it (say in a comparison of large numbers). its natural logarithm though (partly due to left to right parenthesized exponentiation) is only 7 digits before the decimal point. Comparing the logs of the numbers to a given precision can allow easier comparision than computing and comparing the numbers themselves. Logs also allow (with repetition) to turn left to right exponentiation into power towers (especially useful for tetration (exponentiation repetition with the same exponent)). ex.
Therefore by : and identities 1 and 2 above ( 2 being used twice) we get:
such that :
Discrete Logarithm
A only partially related value is the discrete logarithm, used in cryptography via modular arithmetic. It's the lowest value such that, for given being integers (as well as the unknowns being integer).
Its related to the usual logarithm, by the fact that if isn't an integer power of then is a lower bound on
Problems
- Evaluate .
- Evaluate .
- Simplify where .
Natural Logarithm
The natural logarithm is the logarithm with base e. It is usually denoted , an abbreviation of the French logarithme normal, so that However, in higher mathematics such as complex analysis, the base 10 logarithm is typically disposed with entirely, the symbol is taken to mean the logarithm base and the symbol is not used at all. (This is an example of conflicting mathematical conventions.)
can also be defined as the area under the curve between 1 and a, or .
All logarithms are undefined in nonpositive reals, as they are complex. From the identity , we have . Additionally, for positive real .
Problems
Introductory
- What is the value of for which ?
- Positive integers and satisfy the condition Find the sum of all possible values of .
Intermediate
- The sequence is geometric with and common ratio where and are positive integers. Given that find the number of possible ordered pairs
- The solutions to the system of equations
are and . Find . Source
Olympiad
External Links
Two-minute Intro to Logarithms [1]