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14 Dec 2016, 05:57
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C
Be sure to select an answer first to save it in the Error Log before revealing the correct answer (OA)!
Difficulty:
35%
(medium)
Question Stats:
70% (01:24) correct
30%
(01:13)
wrong
based on 437
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What is the greatest value of x such that 8^x is a factor of 16! ?
A. 2
B. 3
C. 5
D. 6
E. 8
A. 2
B. 3
C. 5
D. 6
E. 8
16 Dec 2016, 05:13
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Bunuel
Since, we need to find the greatest value of x such that \(8^x\) is a factor of \(16!\), it is same as finding the highest power of 8 in \(16!\)
In any question where we need to find the highest power of a number which can divide a factorial (product of first n natural numbers) or in other words, is a factor of the given factorial, all we need to do is
- 1. Prime factorize the number whose highest power is to be found.
2. Find the highest power of each of the prime factors in the factorial
3. Calculate how many such numbers (whose highest power is to be found) can be created using the highest power of each of its prime factors.
Let's apply the above steps to solve this question and then we will look at a couple of questions where we can apply this learning.
We need to find the highest power of 8, so let's begin by doing
Step-1: Prime factorization of 8.
\(8 = 2 * 2 * 2 = 2^3\)
Step-2: Find the highest power of each of the prime factors in the factorial
Since 8 has only one prime factor 2, we need to find the highest power of 2 in 16!. Now how do we do so? There are 2 ways based on the same principle.
Method 1
Keep dividing the factorial successively by 2 and keep adding the quotient till you don't have anything left to divide. Remember, successive division means dividing the quotient obtained at each step by the same divisor by which we start the division.
So, let's do it quickly.
\(\frac {16}{2} = 8\)
\(\frac {8}{2} = 4\)
\(\frac {4}{2} = 2\)
\(\frac {2}{2} = 1\)
\(\frac {1}{2} = 0\)
As there is nothing left to divide, let's add the quotients to find the highest power of 2 in \(16!\)
Sum of quotients \(= 8+4+2+1+0 = 15\)
Method 2
Divide 16 by consecutive powers of 2, till you get 0 as a quotient and add all quotients. This method is based on the same principle as Method 1.
So, we have highest power of 2 in 16! = \(\frac {16}{2} + \frac {16}{2^2} +\frac {16}{2^3}+\frac {16}{2^4} = 8+4+2+1 = 15\)
So, we can conclude that the highest power of 2 in \(16!\) is \(2^{15}\)
Step-3: Calculate how many such numbers can be created using the highest power of each of its prime factors
Let's try to figure how many 8's we can create using \(2^{15}\).
Since, \(8 = 2^3\), we can write \(2^{15}\) as \((2^{3})^5\).
Or, in simple terms \(2^{15} = 8^5\)
Hence, the greatest value of x such that \(8^x\) is a factor of 16! is 5. Hence, answer is choice C.
Let me post a couple of questions on similar lines where we can use the method discussed in this post to solve this type of questions very quickly.
Question 1: What is the greatest value of x such that \(15^x\) completely divides 300! ?
- A. 20
B. 54
C. 74
D. 148
E. 222
Question 2: What is the greatest value of "a" such that \(45^a\) completely divides 300! ?
- A. 8
B. 36
C. 74
D. 148
E. 222
Detailed solutions will be posted soon. Use the method highlighted in this post to solve the above questions. All the best.
To practise ten 700+ Level Number Properties Questions attempt the The E-GMAT Number Properties Knockout
Click here.
Regards,
Piyush
e-GMAT
14 Dec 2016, 06:39
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First we'll find power of \(2\) in \(16!\)
\([\frac{16}{2}] + [\frac{16}{2^2}] + [\frac{16}{2^3}] + [\frac{16}{2^4}] = 8 + 4 + 2 + 1 = 15\)
and we have:
\(2^{15} = (2^3)^5 = 8^5\)
Answer C
\([\frac{16}{2}] + [\frac{16}{2^2}] + [\frac{16}{2^3}] + [\frac{16}{2^4}] = 8 + 4 + 2 + 1 = 15\)
and we have:
\(2^{15} = (2^3)^5 = 8^5\)
Answer C
