The value of $$\left(10^8-10^2\right)\div\left(10^7-10^3\right)$$ is closest to which of the following?
A) 1
B) 10
C) 10^2
D) 10^3
E) 10^4
Answer is C 10^2. How are they able to simply subtract the like bases with different exponents than divide. Aren't you only allowed to multiple and divide like bases with different exponents? $$\left(10^8-10^2\right)\div\left(10^7-10^3\right)$$
GMAT Official Practice Tes #6
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- MartyMurray
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You are correct. You can't add or subtract like bases with different exponents.simpm14 wrote:The value of $$\left(10^8-10^2\right)\div\left(10^7-10^3\right)$$ is closest to which of the following?
A) 1
B) 10
C) 10^2
D) 10^3
E) 10^4
Answer is C 10^2. How are they able to simply subtract the like bases with different exponents than divide. Aren't you only allowed to multiple and divide like bases with different exponents? $$\left(10^8-10^2\right)\div\left(10^7-10^3\right)$$
However, in this case, the question is asking which of the answers the value of $$\left(10^8-10^2\right)\div\left(10^7-10^3\right)$$ is CLOSEST to. So, we don't need an exact answer.
Notice, 10� is much greater than 10², and 10� is much greater than 10³.
In fact, the larger numbers in the parentheses are so much greater than the smaller numbers that we can ignore the smaller numbers and consider the expression approximately equal to 10�/10�.
Of course 10�/10� = 10.
So, $$\left(10^8-10^2\right)\div\left(10^7-10^3\right)$$ = approximately 10.
The correct answer is B.
Marty Murray
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- ceilidh.erickson
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Since we're asked what the value is *closest* to, Marty is right - we don't have to do complicated math, we can just estimate with the larger numbers.
But, for a lot of exponent questions with addition or subtraction, we can't simply add or subtract the bases, but we can FACTOR:
\(10^8-10^2\) ---> \(10^2(10^6-1)\)
and
\(10^7-10^3\) ---> \(10^3(10^4-1)\)
So, we can rewrite the problem as:
$$\frac{10^2\left(10^6-1\right)}{10^3\left(10^4-1\right)}$$
$$\frac{\left(10^6-1\right)}{10^1\left(10^4-1\right)}$$
$$\frac{10^6-1}{10^5-10}$$
Since \(10^6\) is so much greater than 1, \(10^6-1\) is effectively equal to \(10^6\) for the purposes of estimating. So, we essentially have \(\frac{10^6}{10^5-10}\) . Again, the -10 makes very little impact, so for the purposes of estimating, this is very close to \(\frac{10^6}{10^5}\), which would equal \(10^1\).
The answer is B.
But, for a lot of exponent questions with addition or subtraction, we can't simply add or subtract the bases, but we can FACTOR:
\(10^8-10^2\) ---> \(10^2(10^6-1)\)
and
\(10^7-10^3\) ---> \(10^3(10^4-1)\)
So, we can rewrite the problem as:
$$\frac{10^2\left(10^6-1\right)}{10^3\left(10^4-1\right)}$$
$$\frac{\left(10^6-1\right)}{10^1\left(10^4-1\right)}$$
$$\frac{10^6-1}{10^5-10}$$
Since \(10^6\) is so much greater than 1, \(10^6-1\) is effectively equal to \(10^6\) for the purposes of estimating. So, we essentially have \(\frac{10^6}{10^5-10}\) . Again, the -10 makes very little impact, so for the purposes of estimating, this is very close to \(\frac{10^6}{10^5}\), which would equal \(10^1\).
The answer is B.
Ceilidh Erickson
EdM in Mind, Brain, and Education
Harvard Graduate School of Education
EdM in Mind, Brain, and Education
Harvard Graduate School of Education