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Condense
We apply the power rule first:
Next we apply the product rule to the sum:
Finally, we apply the quotient rule to the difference:
Rewrite as a single logarithm.
We apply the power rule first:
Next we rearrange and apply the product rule to the sum:
Finally, we apply the quotient rule to the difference:
Recall that, in chemistry, If the concentration of hydrogen ions in a liquid is doubled, what is the effect on pH?
Suppose is the original concentration of hydrogen ions, and is the original pH of the liquid. Then If the concentration is doubled, the new concentration is Then the pH of the new liquid is
Using the product rule of logs
Since the new pH is
When the concentration of hydrogen ions is doubled, the pH decreases by about 0.301.
How does the pH change when the concentration of positive hydrogen ions is decreased by half?
The pH increases by about 0.301.
Most calculators can evaluate only common and natural logs. In order to evaluate logarithms with a base other than 10 or we use the change-of-base formula to rewrite the logarithm as the quotient of logarithms of any other base; when using a calculator, we would change them to common or natural logs.
To derive the change-of-base formula, we use the one-to-one property and power rule for logarithms .
Given any positive real numbers and where and we show
Let By taking the log base of both sides of the equation, we arrive at an exponential form, namely It follows that
For example, to evaluate using a calculator, we must first rewrite the expression as a quotient of common or natural logs. We will use the common log.
The change-of-base formula can be used to evaluate a logarithm with any base.
For any positive real numbers and where and
It follows that the change-of-base formula can be used to rewrite a logarithm with any base as the quotient of common or natural logs.
and
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