How to find an exponent from a rational number - GRE Quantitative Reasoning
Card 1 of 88
find x
8x=2x+6
find x
8x=2x+6
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8 = 23
(23)x = 23x
23x = 2x+6 <- when the bases are the same, you can set the exponents equal to each other and solve for x
3x=x+6
2x=6
x=3
8 = 23
(23)x = 23x
23x = 2x+6 <- when the bases are the same, you can set the exponents equal to each other and solve for x
3x=x+6
2x=6
x=3
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Compare $3^{6}$ and $27^{2}$.
Compare $3^{6}$ and $27^{2}$.
Tap to reveal answer
First rewrite the two expressions so that they have the same base, and then compare their exponents.
27 = $3^{3}$
$27^2$ = $(3^{3}$$)^2$
Combine exponents by multiplying: $(3^{3}$$)^2$ = $3^6$
This is the same as the first given expression, so the two expressions are equal.
First rewrite the two expressions so that they have the same base, and then compare their exponents.
27 = $3^{3}$
$27^2$ = $(3^{3}$$)^2$
Combine exponents by multiplying: $(3^{3}$$)^2$ = $3^6$
This is the same as the first given expression, so the two expressions are equal.
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Solve for 
.
Solve for
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can be written as 
Since there is a common base of 
, we can say
or 
.
Since there is a common base of
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Solve for 
.
Solve for
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The basees don't match.
However:
thus we can rewrite the expression as 
.
Anything raised to negative power means 
over the base raised to the postive exponent.
So, 
. 
.
The basees don't match.
However:
Anything raised to negative power means
So,
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Solve for 
.
Solve for
Tap to reveal answer
The bases don't match.
However:
and we recognize that 
.
Anything raised to negative power means 
over the base raised to the postive exponent.
.
The bases don't match.
However:
Anything raised to negative power means
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Solve for 
Solve for
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Recall that 
.
With same base, we can write this equation:
.
By subtracting 
on both sides, 
.
Recall that
With same base, we can write this equation:
By subtracting
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Solve for 
.
Solve for
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Since 
we can rewrite the expression.
With same base, let's set up an equation of 
.
By subtracting 
on both sides, we get 
.
Take the square root of both sides we get BOTH 
and 
.
Since
With same base, let's set up an equation of
By subtracting
Take the square root of both sides we get BOTH
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Solve for 
.
Solve for
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They don't have the same base, however: 
.
Then 
. You would multiply the 
and the 
instead of adding.
.
They don't have the same base, however:
Then
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Solve for 
.
Solve for
Tap to reveal answer
There are two ways to go about this.
Method 
They don't have the same bases however: 
. Then 
You would multiply the 
and the 
instead of adding. We have 
Divide 
on both sides to get 
.
Method 
:
We can change the base from 
to 
This is the basic property of the product of power exponents.
We have the same base so basically 
.
There are two ways to go about this.
Method
They don't have the same bases however:
You would multiply the
Divide
Method
We can change the base from
This is the basic property of the product of power exponents.
We have the same base so basically
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Solve for 
.
Solve for
Tap to reveal answer
Since we can write 
.
With same base we can set up an equation of 
Divide both sides by 
and we get 
.
Since we can write
With same base we can set up an equation of
Divide both sides by
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Solve for 
.
Solve for
Tap to reveal answer
We still don't have the same base however: 
Then,
.
With same base we can set up an equation of 
.
Divide both sides by 
and we get 
.
We still don't have the same base however:
Then,
With same base we can set up an equation of
Divide both sides by
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find x
8x=2x+6
find x
8x=2x+6
Tap to reveal answer
8 = 23
(23)x = 23x
23x = 2x+6 <- when the bases are the same, you can set the exponents equal to each other and solve for x
3x=x+6
2x=6
x=3
8 = 23
(23)x = 23x
23x = 2x+6 <- when the bases are the same, you can set the exponents equal to each other and solve for x
3x=x+6
2x=6
x=3
← Didn't Know|Knew It →
Compare $3^{6}$ and $27^{2}$.
Compare $3^{6}$ and $27^{2}$.
Tap to reveal answer
First rewrite the two expressions so that they have the same base, and then compare their exponents.
27 = $3^{3}$
$27^2$ = $(3^{3}$$)^2$
Combine exponents by multiplying: $(3^{3}$$)^2$ = $3^6$
This is the same as the first given expression, so the two expressions are equal.
First rewrite the two expressions so that they have the same base, and then compare their exponents.
27 = $3^{3}$
$27^2$ = $(3^{3}$$)^2$
Combine exponents by multiplying: $(3^{3}$$)^2$ = $3^6$
This is the same as the first given expression, so the two expressions are equal.
← Didn't Know|Knew It →
Solve for .
Solve for
Tap to reveal answer
can be written as
Since there is a common base of , we can say
or .
Since there is a common base of
← Didn't Know|Knew It →
Solve for .
Solve for
Tap to reveal answer
The basees don't match.
However:
thus we can rewrite the expression as .
Anything raised to negative power means over the base raised to the postive exponent.
So, . .
The basees don't match.
However:
Anything raised to negative power means
So,
← Didn't Know|Knew It →
Solve for .
Solve for
Tap to reveal answer
The bases don't match.
However:
and we recognize that .
Anything raised to negative power means over the base raised to the postive exponent.
.
The bases don't match.
However:
Anything raised to negative power means
← Didn't Know|Knew It →
Solve for
Solve for
Tap to reveal answer
Recall that .
With same base, we can write this equation:
.
By subtracting on both sides, .
Recall that
With same base, we can write this equation:
By subtracting
← Didn't Know|Knew It →
Solve for .
Solve for
Tap to reveal answer
Since we can rewrite the expression.
With same base, let's set up an equation of .
By subtracting on both sides, we get .
Take the square root of both sides we get BOTH and .
Since
With same base, let's set up an equation of
By subtracting
Take the square root of both sides we get BOTH
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Solve for .
Solve for
Tap to reveal answer
They don't have the same base, however: .
Then . You would multiply the and the instead of adding.
.
They don't have the same base, however:
Then
← Didn't Know|Knew It →
Solve for .
Solve for
Tap to reveal answer
There are two ways to go about this.
Method
They don't have the same bases however: . Then
You would multiply the and the instead of adding. We have
Divide on both sides to get .
Method :
We can change the base from to
This is the basic property of the product of power exponents.
We have the same base so basically .
There are two ways to go about this.
Method
They don't have the same bases however:
You would multiply the
Divide
Method
We can change the base from
This is the basic property of the product of power exponents.
We have the same base so basically
← Didn't Know|Knew It →