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Re: K and L are each four-digit positive integers with thousands [#permalink]
Can someone please explain?
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Re: K and L are each four-digit positive integers with thousands [#permalink]
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This is a tough question which maybe goes beyond the GRE scope.

So, we should recognize the common exponents base.

\(W= 5^{a-p} \times 2^{b-q} \times 7^{c-r} \times 3^{d-s}\) AND \(W =16=2^4\)

If \(W=2^4\) and at the same time has also 5 and 7 and 3 as a factor this is impossible because W contains only 4 of two unless \(5^0=1\) and \(3^0=1\) and \(7^0=1\)


\(W= 5^{a-p} \times 2^{b-q} \times 7^{c-r} \times 3^{d-s} = 5^0 \times 2^{b-q} \times 7^0 \times 3^0 = 16\)

From this \(b-q \) must be \(=4\)

Moreover, since the exponents of 5, 7, and 3 are equal to zero, the differences between the thousands, tens, and units digits of K and L are zero, implying that K and L differ only in their hundreds digit.


Since the hundreds digit of K is 4 greater than that of L, the difference between K and L is \(4 \times 100 = 400\). Therefore \(K — L = 400\). Since Z is defined as \((K — L) 10\), we can determine that \(Z = 400 ÷ 10 = 40\). The correct answer is D.
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Re: K and L are each four-digit positive integers with thousands [#permalink]
Hey Carcass, This was my query. The question shows that there is a sign of addition(+) in the question whereas you have solved the question taking a division sign.
Hence, I felt that the question was wrong.

Carcass wrote:
This is a tough question which maybe goes beyond the GRE scope.

So, we should recognize the common exponents base.

\(W= 5^{a-p} \times 2^{b-q} \times 7^{c-r} \times 3^{d-s}\) AND \(W =16=2^4\)

If \(W=2^4\) and at the same time has also 5 and 7 and 3 as a factor this is impossible because W contains only 4 of two unless \(5^0=1\) and \(3^0=1\) and \(7^0=1\)


\(W= 5^{a-p} \times 2^{b-q} \times 7^{c-r} \times 3^{d-s} = 5^0 \times 2^{b-q} \times 7^0 \times 3^0 = 16\)

From this \(b-q \) must be \(=4\)

Moreover, since the exponents of 5, 7, and 3 are equal to zero, the differences between the thousands, tens, and units digits of K and L are zero, implying that K and L differ only in their hundreds digit.


Since the hundreds digit of K is 4 greater than that of L, the difference between K and L is \(4 \times 100 = 400\). Therefore \(K — L = 400\). Since Z is defined as \((K — L) 10\), we can determine that \(Z = 400 ÷ 10 = 40\). The correct answer is D.
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Re: K and L are each four-digit positive integers with thousands [#permalink]
Expert Reply
Well, a typo is always possible. Too many candies these holydays could clog your brain :lol:

However, it was correct and the process is to boil down the equation to common base exponents

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Re: K and L are each four-digit positive integers with thousands [#permalink]
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