# Why Do We Use Logarithms?

## What is the purpose of using logarithms?

Logarithmic scales reduce wide-ranging quantities to tiny scopes.

For example, the decibel (dB) is a unit used to express ratio as logarithms, mostly for signal power and amplitude (of which sound pressure is a common example).

In chemistry, pH is a logarithmic measure for the acidity of an aqueous solution..

## Are logarithms hard?

Not at all. These days logarithms are figured out on calculators, which makes it pretty easy as long as you learn what to put into the calculator to get the right answer.

## Who invented 0?

MayansThe first recorded zero appeared in Mesopotamia around 3 B.C. The Mayans invented it independently circa 4 A.D. It was later devised in India in the mid-fifth century, spread to Cambodia near the end of the seventh century, and into China and the Islamic countries at the end of the eighth.

## Who invented pi?

Introduced by William Jones in 1706, use of the symbol was popularized by Leonhard Euler, who adopted it in 1737. An eighteenth-century French mathematician named Georges Buffon devised a way to calculate π based on probability.

## What is a real life example of an exponential function?

Exponential functions are often used to represent real-world applications, such as bacterial growth/decay, population growth/decline, and compound interest. Suppose you are studying the effects of an antibiotic on a certain bacteria.

## What is the difference between linear and logarithmic?

A logarithmic price scale uses the percentage of change to plot data points, so, the scale prices are not positioned equidistantly. A linear price scale uses an equal value between price scales providing an equal distance between values.

## How do you convert data to normal?

Taking the square root and the logarithm of the observation in order to make the distribution normal belongs to a class of transforms called power transforms. The Box-Cox method is a data transform method that is able to perform a range of power transforms, including the log and the square root.

## Why do we use logarithms in regression?

A regression model will have unit changes between the x and y variables, where a single unit change in x will coincide with a constant change in y. Taking the log of one or both variables will effectively change the case from a unit change to a percent change. … A logarithm is the base of a positive number.

## How are logarithms used in real life?

Using Logarithmic Functions Much of the power of logarithms is their usefulness in solving exponential equations. Some examples of this include sound (decibel measures), earthquakes (Richter scale), the brightness of stars, and chemistry (pH balance, a measure of acidity and alkalinity).

## What professions use logarithms?

Logarithms are used in both nuclear and internal medicine. For example, they are used for investigating pH concentrations, determining amounts of radioactive decay, as well as amounts of bacterial growth. Logarithms also are used in obstetrics.

## What is the Antilog?

The antilogarithm is the number for which a given logarithm stands. For example, if log x equals y, then x is the antilogarithm of y. To find the antilog of a number in a given base, raise the base to the number result. … This is usually the second function of the log key.

## What does Heteroskedasticity mean?

In statistics, heteroskedasticity (or heteroscedasticity) happens when the standard deviations of a predicted variable, monitored over different values of an independent variable or as related to prior time periods, are non-constant. … Heteroskedasticity often arises in two forms: conditional and unconditional.

## Is log 0 possible?

log 0 is undefined. It’s not a real number, because you can never get zero by raising anything to the power of anything else. You can never reach zero, you can only approach it using an infinitely large and negative power. … This is because any number raised to 0 equals 1.

## What year do you learn logarithms?

Indeed, students don’t usually learn anything about logarithms until Algebra 2 or even Precalculus. One result of this is that calculus students always seem very comfortable with square roots, but have a very shaky knowledge of logarithms, even though the two concepts have about the same difficulty level.

## Why do we use natural logarithms?

Logarithms are useful for solving equations in which the unknown appears as the exponent of some other quantity. For example, logarithms are used to solve for the half-life, decay constant, or unknown time in exponential decay problems.

## What were logarithms originally used for?

Invented in the 17th century to speed up calculations, logarithms vastly reduced the time required for multiplying numbers with many digits.

## What is the base for common log?

In mathematics, the common logarithm is the logarithm with base 10. It is also known as the decadic logarithm and as the decimal logarithm, named after its base, or Briggsian logarithm, after Henry Briggs, an English mathematician who pioneered its use, as well as standard logarithm.

## Who invented maths?

Beginning in the 6th century BC with the Pythagoreans, the Ancient Greeks began a systematic study of mathematics as a subject in its own right with Greek mathematics. Around 300 BC, Euclid introduced the axiomatic method still used in mathematics today, consisting of definition, axiom, theorem, and proof.