Solving Logarithmic Equations - Math
Card 1 of 72
Solve the equation.
Solve the equation.
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First, change 25 to 
so that both sides have the same base. Once they have the same base, you can apply log to both sides so that you can set their exponents equal to each other, which yields 
.
First, change 25 to
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Solve the equation.
Solve the equation.
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Change 49 to 
so that both sides have the same base so that you can apply log. Then, you can set the exponential expressions equal to each other 
.
Thus, 
Change 49 to
Thus,
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Solve the equation.
Solve the equation.
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Change 81 to 
so that both sides have the same base. Once you have the same base, apply log to both sides so that you can set the exponential expressions equal to each other (
). Thus, 
.
Change 81 to
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Solve the equation.
Solve the equation.
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Change the right side to 
so that both sides have the same bsae of 10. Apply log and then set the exponential expressions equal to each other
Change the right side to
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Solve the equation.
Solve the equation.
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Change 64 to 
so that both sides have the same base. Apply log to both sides so that you can set the exponential expressions equal to each other
.
Thus, 
.
Change 64 to
Thus,
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Solve the equation.
Solve the equation.
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Change the left side to 
and the right side to 
so that both sides have the same base. Apply log and then set the exponential expressions equal to each other (
). Thus, 
.
Change the left side to
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Solve the equation.
Solve the equation.
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Change 125 to 
so that both sides have the same base. Apply log and then set the exponential expressions equal to each other so that 
. Upon trying to isolate 
, it becomes clear that there is no solution.
Change 125 to
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Solve the equation.
Solve the equation.
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Change the right side to 
so that both sides are the same. Apply log to both sides so that you can set the exponential expressions equal to each other (
).
Change the right side to
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Solve the equation.
Solve the equation.
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Change the left side to 
and the right side to 
so that both sides have the same base. Apply log to both sides and then set the exponential expressions equal to each other (
). 
.
Change the left side to
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Solve the equation.
Solve the equation.
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Change the left side to 
and the right side to 
so that both sides have the same base. Apply log and then set the exponential expressions equal to each other (
). Thus, 
Change the left side to
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Solve the equation.
Solve the equation.
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Change the left side to 
and the right side to 
so that both sides have the same base. Apply log to both sides and then set the exponential expressions equal to each other (
). Thus, 
.
Change the left side to
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Solve for 
.
Solve for
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can be simplified to 
since 
. This gives the equation:
Subtracting 
from both sides of the equation gives the value for 
.
Subtracting
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Solve for 
:
Solve for
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Since 
, 
, and we can rewrite and solve this statement as follows:
Substitution confirms this to be the only solution.
Since
Substitution confirms this to be the only solution.
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Solve for 
:
Solve for
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We can rewrite this as follows:
Split this into a compound statement, and solve:
Test both of these possible solutions by substituting:
Since only positive numbers can have logarithms, this equation does not make sense. 
is not a solution.
is a solution - the only solution.
We can rewrite this as follows:
Split this into a compound statement, and solve:
Test both of these possible solutions by substituting:
Since only positive numbers can have logarithms, this equation does not make sense.
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What is the sum of the value(s) of x that satisfy the equation 
?
What is the sum of the value(s) of x that satisfy the equation
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We need to rewrite the logarithmic equation into a form that is more recognizable.
An equation in the form 
can be rewritten in the exponential form 
, where a, b, and c are constants (and b > 0). Thus, we will rewrite our original equation as follows:
.
We can now approach this as we would a typical quadratic equation.
Subtract 100 from both sides. We need to set all of the terms equal to zero.
.
We can factor this by first multiplying the outer coefficients. The product of 2 and -100 is equal to -200. We must think of two numbers that multiply to give -200 but add to give -35 (the middle coefficient). Two numbers that satisfy both of these requirements are -40 and 5. We will now rewrite the quadratic polynomial.
We can use grouping to factor the polynomial. Factor the first two terms and the last two terms separately.
Notice that we can now factor out x - 20 from the 2x term and the 5 term.
To solve this, we set each factor equal to zero.
The question ultimately asks for the sum of the values of x that satisfy the equation, so we must add -5/2 and 20, which yields 35/2.
The answer is 35/2.
We need to rewrite the logarithmic equation into a form that is more recognizable.
An equation in the form
We can now approach this as we would a typical quadratic equation.
Subtract 100 from both sides. We need to set all of the terms equal to zero.
We can factor this by first multiplying the outer coefficients. The product of 2 and -100 is equal to -200. We must think of two numbers that multiply to give -200 but add to give -35 (the middle coefficient). Two numbers that satisfy both of these requirements are -40 and 5. We will now rewrite the quadratic polynomial.
We can use grouping to factor the polynomial. Factor the first two terms and the last two terms separately.
Notice that we can now factor out x - 20 from the 2x term and the 5 term.
To solve this, we set each factor equal to zero.
The question ultimately asks for the sum of the values of x that satisfy the equation, so we must add -5/2 and 20, which yields 35/2.
The answer is 35/2.
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Solve the following logarithmic equation:
Solve the following logarithmic equation:
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Since the bases of the logs are the same, the terms inside the logs can be set equal to each other.
Since the bases of the logs are the same, the terms inside the logs can be set equal to each other.
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Solve the following logarithmic equation:
Solve the following logarithmic equation:
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Since the bases of the logs are the same and the logarithms are added, the arguments can be multiplied together.
The logarithm can then be converted to exponential form.
Although there are two solutions to the equation, logarithims cannot be negative. Therefore, the only real solution is 
.
Since the bases of the logs are the same and the logarithms are added, the arguments can be multiplied together.
The logarithm can then be converted to exponential form.
Although there are two solutions to the equation, logarithims cannot be negative. Therefore, the only real solution is
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Solve the following logarithmic equation:
Solve the following logarithmic equation:
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Start by converting the logarithms into exponential form:
Convert again into exponential form:
Simplify and solve:
Start by converting the logarithms into exponential form:
Convert again into exponential form:
Simplify and solve:
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Solve the equation.
Solve the equation.
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First, change 25 to so that both sides have the same base. Once they have the same base, you can apply log to both sides so that you can set their exponents equal to each other, which yields .
First, change 25 to
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Solve the equation.
Solve the equation.
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Change 49 to so that both sides have the same base so that you can apply log. Then, you can set the exponential expressions equal to each other .
Thus,
Change 49 to
Thus,
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