Solving Exponential Equations - Algebra 2
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Solve for 
.
Solve for
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When dealing with exponential equations, we want to make sure the bases are the same. This way we can set-up an equation with the exponents.
With the same base, we can now write
Subtract 
on both sides.
Divide 
on both sides.
When dealing with exponential equations, we want to make sure the bases are the same. This way we can set-up an equation with the exponents.
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Solve for 
:
Solve for
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Because both sides of the equation have the same base, set the terms equal to each other.
Add 9 to both sides: 
Then, subtract 2x from both sides: 
Finally, divide both sides by 3: 
Because both sides of the equation have the same base, set the terms equal to each other.
Add 9 to both sides:
Then, subtract 2x from both sides:
Finally, divide both sides by 3:
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Solve the equation for 
.
Solve the equation for
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Begin by recognizing that both sides of the equation have a root term of 
.
Using the power rule, we can set the exponents equal to each other.
Begin by recognizing that both sides of the equation have a root term of
Using the power rule, we can set the exponents equal to each other.
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Solve the equation for 
.
Solve the equation for
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Begin by recognizing that both sides of the equation have the same root term, 
.
We can use the power rule to combine exponents.
Set the exponents equal to each other.
Begin by recognizing that both sides of the equation have the same root term,
We can use the power rule to combine exponents.
Set the exponents equal to each other.
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In 2009, the population of fish in a pond was 1,034. In 2013, it was 1,711.
Write an exponential growth function of the form 
that could be used to model 
, the population of fish, in terms of 
, the number of years since 2009.
In 2009, the population of fish in a pond was 1,034. In 2013, it was 1,711.
Write an exponential growth function of the form
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Solve for the values of a and b:
In 2009, 
and 
(zero years since 2009). Plug this into the exponential equation form:
. Solve for 
to get 
.
In 2013, 
and 
. Therefore,
or 
. Solve for 
to get
.
Then the exponential growth function is
.
Solve for the values of a and b:
In 2009,
In 2013,
Then the exponential growth function is
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Solve for 
.
Solve for
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8 and 4 are both powers of 2.
8 and 4 are both powers of 2.
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Solve for 
:
Solve for
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125 and 25 are both powers of 5.
Therefore, the equation can be rewritten as
.
Using the Distributive Property,
.
Since both sides now have the same base, set the two exponents equal to one another and solve:
Add 30 to both sides: 
Add 
to both sides: 
Divide both sides by 20: 
125 and 25 are both powers of 5.
Therefore, the equation can be rewritten as
Using the Distributive Property,
Since both sides now have the same base, set the two exponents equal to one another and solve:
Add 30 to both sides:
Add
Divide both sides by 20:
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Solve 
.
Solve
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Both 27 and 9 are powers of 3, therefore the equation can be rewritten as
.
Using the Distributive Property,
.
Now that both sides have the same base, set the two exponenents equal and solve.
Add 12 to both sides: 
Subtract 
from both sides: 
Both 27 and 9 are powers of 3, therefore the equation can be rewritten as
Using the Distributive Property,
Now that both sides have the same base, set the two exponenents equal and solve.
Add 12 to both sides:
Subtract
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The first step in thist problem is divide both sides by three: 
. Then, recognize that 8 could be rewritten with a base of 2 as well (
). Therefore, your answer is 3.
The first step in thist problem is divide both sides by three:
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Solve for 
.
Solve for
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Let's convert 
to base 
.
We know the following:
Simplify.
Solve.
Let's convert
We know the following:
Simplify.
Solve.
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Solve for 
.
Solve for
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Let's convert 
to base 
.
We know the following:
Simplify.
Solve.
.
Let's convert
We know the following:
Simplify.
Solve.
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Solve for 
.
Solve for
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When multiplying exponents with the same base, we will apply the power rule of exponents:
We will simply add the exponents and keep the base the same.
When multiplying exponents with the same base, we will apply the power rule of exponents:
We will simply add the exponents and keep the base the same.
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Solve for 
.
Solve for
Tap to reveal answer
When multiplying exponents with the same base, we will apply the power rule of exponents:
We will simply add the exponents and keep the base the same.
Simplify.
Solve.
When multiplying exponents with the same base, we will apply the power rule of exponents:
We will simply add the exponents and keep the base the same.
Simplify.
Solve.
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Solve for 
.
Solve for
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When adding exponents with the same base, we need to see if we can factor out the numbers of the base.
In this case, let's factor out 
.
We get the following:
Since we are now multiplying with the same base, we get the following expression:
Now we have the same base and we just focus on the exponents.
The equation is now:
Solve.
When adding exponents with the same base, we need to see if we can factor out the numbers of the base.
In this case, let's factor out
We get the following:
Since we are now multiplying with the same base, we get the following expression:
Now we have the same base and we just focus on the exponents.
The equation is now:
Solve.
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Solve for 
.
Solve for
Tap to reveal answer
First, we need to convert 
to base 
.
We know 
.
Therefore we can write the following expression:
.
Next, when we add exponents of the same base, we need to see if we can factor out terms.
In this case, let's factor out 
.
We get the following:
.
Since we are now multiplying with the same base, we get the following expression:
.
Now we have the same base and we just focus on the exponents.
The equation is now:
Solve.
First, we need to convert
We know
Therefore we can write the following expression:
Next, when we add exponents of the same base, we need to see if we can factor out terms.
In this case, let's factor out
We get the following:
Since we are now multiplying with the same base, we get the following expression:
Now we have the same base and we just focus on the exponents.
The equation is now:
Solve.
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Solve for 
.
Solve for
Tap to reveal answer
When we add exponents, we try to factor to see if we can simplify it. Let's factor 
. We get 
. Remember to apply the rule of multiplying exponents which is to add the exponents and keeping the base the same.
With the same base, we can rewrite as 
.
When we add exponents, we try to factor to see if we can simplify it. Let's factor
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Solve for 
.
Solve for
Tap to reveal answer
When we add exponents, we try to factor to see if we can simplify it. Let's factor 
. We get 
. Remember to apply the rule of multiplying exponents which is to add the exponents and keeping the base the same.
With the same base, we can rewrite as 
.
When we add exponents, we try to factor to see if we can simplify it. Let's factor
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Solve for 
.
Solve for
Tap to reveal answer
Add 
on both sides.
When we add exponents, we try to factor to see if we can simplify it. Let's factor 
. We get 
. Remember to apply the rule of multiplying exponents which is to add the exponents and keeping the base the same.
With the same base, we can rewrite as 
.
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Solve for 
.
Solve for
Tap to reveal answer
Add 
on both sides.
When we add exponents, we try to factor to see if we can simplify it. Let's factor 
. We get 
. Remember to apply the rule of multiplying exponents which is to add the exponents and keeping the base the same.
With the same base, we can rewrite as 
.
When we add exponents, we try to factor to see if we can simplify it. Let's factor
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Solve for 
.
Solve for
Tap to reveal answer
When multiplying exponents with the same base, we add the exponents and keep the base the same.
We can just rewrite as such: 
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