Quizzes & Puzzles6 mins ago
Yet Another Maths Problem
50 Answers
Well as it is the day for maths questions, how about this one
ABBB/BBBC = ABB/BBC = AB/BC = A/C
What is ABC, (All different and adding up to 13)
ABBB/BBBC = ABB/BBC = AB/BC = A/C
What is ABC, (All different and adding up to 13)
Answers
Best Answer
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For more on marking an answer as the "Best Answer", please visit our FAQ.Sorry, I was just checking my method against other solutions in different bases.
Your interpretation is correct, and if we consider a number in a general base x then some fairly simple algebra gives that:
[(A-B)C]/[(C-B)A]=x
this turns out to be the only unique equation that emerges; eliminating B then gives:
[(2A+C-x-3)C]/[(2C+A-x-3)A]=x
which is an equation that has a simple right-hand side making for easy checking. In base 10 the equation holds true for A=2, C=5, so that B=6. This then gives:
2666/6665=266/665=26/65 = 2/5
which can be checked as all giving 0.4.
(I have so far also found the solution A=1, B=5, C=3 in base 6, using the same equation).
Your interpretation is correct, and if we consider a number in a general base x then some fairly simple algebra gives that:
[(A-B)C]/[(C-B)A]=x
this turns out to be the only unique equation that emerges; eliminating B then gives:
[(2A+C-x-3)C]/[(2C+A-x-3)A]=x
which is an equation that has a simple right-hand side making for easy checking. In base 10 the equation holds true for A=2, C=5, so that B=6. This then gives:
2666/6665=266/665=26/65 = 2/5
which can be checked as all giving 0.4.
(I have so far also found the solution A=1, B=5, C=3 in base 6, using the same equation).
Yes, it's an interesting little problem. A fully general solution involves a quadratic equation, where you have to take the square root of a quintic(!) polynomial in the base, and includes one free parameter, that you then have to choose such that A, B C are distinct positive integers less than 13 (or x+3 for the "base" x).
I'll have to check that my algebra is fully correct before I publish the solution; Excel seems to suggest that I might have made a slip in that general solution. Oh for Mathematica's "solve" function...
I'll have to check that my algebra is fully correct before I publish the solution; Excel seems to suggest that I might have made a slip in that general solution. Oh for Mathematica's "solve" function...
Not really sure what you mean by that. You can use large letters to represent numbers, although there are all sorts of weird conventions governing how you should use them I guess, so maybe they were different back in't day.
anyway I fixed the error, a stray minus sign (of course, curse those things!). I suppose now I ought to find a full general solution, ie when A+B+C = px+q ...
anyway I fixed the error, a stray minus sign (of course, curse those things!). I suppose now I ought to find a full general solution, ie when A+B+C = px+q ...
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