Home > Just Math
| Another case of divisibility (Posted on 2009-02-15) |
 |
Determine all pairs (a, b) of positive integers such that ab2 + b + 7 divides evenly a2b + a + b.
|
|
Submitted by pcbouhid
|
|
No Rating
|
|
|
Solution:
|
(Hide)
|
See problem 4_eureka3.
If I = (a2b + a + b) / (ab2 + b + 7) is integer, then [b(a2b + a + b) - a(ab2 + a + b)] / (ab2 + b + 7) = (b2 - 7a) / (ab2 + b + 7) is integer.
Since (b2 - 7a) < b2 < ab2 + b + 7, then we have N = (b2 - 7a) / (ab2 + b + 7) < 1.
If N = 0, then b2 = 7a, and so b is a multiple of 7 (say b = 7k), and (7k)2 = 7a give us a = 7k2.
So all the pairs (a, b) = (7k2, 7k) for k positive integer, satisfy the conditions of the problem.
If N < 0, we must have b2 < 7a and N =< -1 (since it must be integer), and so 7a > (7a - b2) >= ab2 + b + 7.
Then 7a > ab2 ===> b2 < 7 ===> b = 1 or 2.
If b = 1, N = (1 - 7a) / (a + 8) = - 7 + 57/(a + 8) and so, (a + 8) must divide 57. Thus (a + 8) = 19 .... a = 11, or (a + 8) = 57 ..... a = 49.
For b = 1:
If a = 11 we have I = 133 / 19 = 7, and if a = 49, we have I = 2451 / 57 = 43.
For b = 2, N = (4 - 7a) / (4a + 9). Since (4 - 7a) > - 18 - 8a = -2(4a + 9), if N is a negative integer, we must have N = - 1, which leads to a = 13/3, that doesn´t satisfy the conditions of the problem.
So the pairs (a, b) are (7k2, 7k) - k positive integer -, (11, 1) and (49, 1).
|
Comments: (
You must be logged in to post comments.)
|
|
Please log in:
Forums (0)
Newest Problems
Random Problem
FAQ |
About This Site
Site Statistics
New Comments (7)
Unsolved Problems
Top Rated Problems
This month's top
Most Commented On
Chatterbox:
|
