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Re: The sum of the positive integers from 1 through n can be cal [#permalink]
halam wrote:
amorphous wrote:
Find the value of \(n\) for each quantity

For A: the numbers are multiples of \(6\); 1st multiple = \(0\) and the last multiple below \(100 = 96\)
value of \(n = \frac{(96-0)}{6} + 1 = 17\) (since both the numbers are divisible by \(6\))

From formula, sum \(= 17 * \frac{18}{2} = 17*9\)

For B: the numbers are multiples of\(8\); 1st multiple \(= 0\) and the last multiple below \(100 = 96\)
value of \(n = \frac{96-0}{8} + 1 = 13\) (since both the numbers are divisible by \(6\))

From formula, sum = \(13 * \frac{14}{2} = 13*7\)

clearly \(A\) is bigger




Hi, I found that the you made a mistake with the sum above.
I have a different solution for this question:
- The first multiple of 6 is: 0 = 6*0
- The second multiple of 6 is: 6 =6*1
- The third multiple of 6 is: 12=6*2
............
- The seventeenth multiple of 6 is: 96=6*16
--> the sum of all multiples of 6 is: 6*(0+1+....+16) = 6*(1+...+16)=6*(16*17)/2=8*6*17
Similarly,
--> the sum of all multiples of 8 is: 8*(1+...+12)=8*(12*13)/2=8*6*13

So A is bigger


can you clarify what is the mistake?
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Re: The sum of the positive integers from 1 through n can be cal [#permalink]
amorphous wrote:
halam wrote:
amorphous wrote:
Find the value of \(n\) for each quantity

For A: the numbers are multiples of \(6\); 1st multiple = \(0\) and the last multiple below \(100 = 96\)
value of \(n = \frac{(96-0)}{6} + 1 = 17\) (since both the numbers are divisible by \(6\))

From formula, sum \(= 17 * \frac{18}{2} = 17*9\)

For B: the numbers are multiples of\(8\); 1st multiple \(= 0\) and the last multiple below \(100 = 96\)
value of \(n = \frac{96-0}{8} + 1 = 13\) (since both the numbers are divisible by \(6\))

From formula, sum = \(13 * \frac{14}{2} = 13*7\)

clearly \(A\) is bigger


It is the sum, the number of multiples of 6 is not continuous from


Hi, I found that the you made a mistake with the sum above.
I have a different solution for this question:
- The first multiple of 6 is: 0 = 6*0
- The second multiple of 6 is: 6 =6*1
- The third multiple of 6 is: 12=6*2
............
- The seventeenth multiple of 6 is: 96=6*16
--> the sum of all multiples of 6 is: 6*(0+1+....+16) = 6*(1+...+16)=6*(16*17)/2=8*6*17
Similarly,
--> the sum of all multiples of 8 is: 8*(1+...+12)=8*(12*13)/2=8*6*13

So A is bigger


can you clarify what is the mistake?


The sum you come up with: sum of all multiples of 6 = (17 * 18)/2 = 17*9
Since multiples of 6 are not continuous integers from 1 to 17, you cannot calculate the sum as above.
Please let me know your thought.
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Re: The sum of the positive integers from 1 through n can be cal [#permalink]
1
Yes you are correct the given formula is for continuous numbers.
We can use avg * number of terms or similar methods to reach the answer. I have modified the above solution
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Re: The sum of the positive integers from 1 through n can be cal [#permalink]
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Re: The sum of the positive integers from 1 through n can be cal [#permalink]
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