rchetan_18 wrote:Seven pieces of rope have an average (arithmetic
mean) length of 68 centimeters and a median length
of 84 centimeters. If the length of the longest piece of
rope is 14 centimeters more than 4 times the length
of the shortest piece of rope, what is the maximum
possible length, in centimeters, of the longest piece
of rope?
(A) 82
(B) 118
(C) 120
(D) 134
(E) 152
So, we have 7 rope lengths.
If the median length is 84, then the lengths (arranged in ascending order) look like this:
{_, _, _, 84, _, _, _}
The length of the longest piece of rope is 14 cm more than 4 times the length of the shortest piece of rope.
Let x = length of shortest piece.
This means that 4x+14 = length of longest piece.
So, we now have:
{x, _, _, 84, _, _, 4x+14}
Our task is the maximize the length of the longest piece.
To do this, we need to minimize the other lengths.
So, we'll make the 2nd and 3rd lengths have length x as well (since x is the shortest possible length)
We get:
{x, x, x, 84, _, _, 4x+14}
Since 84 is the middle-most length, the 2 remaining lengths must be greater than or equal to 84.
So, the shortest lengths there are 84.
So, we get:
{x, x, x, 84, 84, 84, 4x+14}
Now what?
At this point, we can use the fact that the average length is 68 cm.
There's a nice rule (that applies to MANY statistics questions) that says:
the sum of n numbers = (n)(mean of the numbers)
So, if the mean of the 7 numbers is 68, then the sum of the 7 numbers = (7)(68) =
476
So, we now now that
x+x+x+84+84+84+(4x+14) = 476
Simplify to get: 7x + 266 = 476
7x = 210
x=30
If x=30, then 4x+14 = 134
So, the longest piece will be 134 cm long.
Answer =
D
Cheers,
Brent
