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Logarthims of the same base can be added together by multiplying their arguments and then performing the logarithm on the product. For example, assuming log means log base 10 as it does on a calculator: log(x) + log(y) = log(x * y)

www.reference.com/article/logarithms-apply-everyday-life-6875618e16f2ddf5

Because they are so closely related to exponential functions, logarithms have a number of applications in real life, especially when calculating the pH of any chemical substance or measuring the loudness of sounds through the use of decibels. Both of these activities, common in many different indust

www.reference.com/article/power-property-logarithms-36d5a51cc5e0e6c0

The power property of logarithms states that any exponent in the argument of a logarithmic function can be brought out as a multiplier to the rest of the expression. In algebraic form (note that ? is used to denote a logarithmic base): log?b(x^c) = c * log?b(x) Assuming that log means log with base

www.reference.com/article/expanding-logarithms-623e184e61af757c

Using known properties of logarithms, one can expand a complex logarithmic expression into a series of simpler expressions. Logarithmic expressions are abbreviated with log and may involve combinations of multiplication, division and exponents.

When two logarithms of the same base are subtracted, the arguments of each logarithm are divided. For example, if two logarithms of base 10 with arguments of 10 and 2 are subtracted, the expression is resolved to a single logarithm of base 10 with an argument of 5.

www.reference.com/article/logarithmic-differentiation-14f9b676839d14e2

Logarithmic differentiation refers to the process in calculus of finding the derivative of a function by using the properties of the natural logarithmic function. The natural logarithmic function is notated by "ln."

www.reference.com/article/graph-logarithmic-functions-9e883d5528ef1180

To graph a logarithmic function, the domain of the function is determined, which is a set of all allowable x values. The domain is used to calculate a range of y values. The vertical asymptote gives the value near which the function changes rapidly. The x and y intercepts are calculated. Using all t

www.reference.com/article/steps-condensing-logarithms-7d7d7e7153cfc75

Logarithms are basically inverse exponential expressions. For that reason, many of the rules for combining or condensing exponents can be applied in reverse to logarithms. Simplifying and condensing logarithms should be done without a calculator.

www.reference.com/article/tips-evaluating-logarithmic-expressions-45eb8780fc3ae68f

A logarithmic expression involves at least three quantities: the base, the exponent and the argument. In the expression log10(1) = 0, 10 is the base, 0 is the exponent, and 1 is the argument. Log10(1) is equal to 0, because 10 to the power of 0 is equal to 1. In general, the expression logA(b) = c m

www.reference.com/article/method-multiplying-logarithms-different-bases-c0037fb0ba7a8fc6

In order to multiply logarithms with different bases, the change of base formula must be used. The change of base formula is log_b_a = (log_c_a) / (log_c_b). The easiest way to use the change of base formula is to change the bases to base 10.

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