GO ON BOB: Difference between revisions

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I believe this is original.
==Puzzle==
Solve this cryptarithmetic (each letter represents a unique digit 0 to 9).  GO + ON = BOB, given that BOB is divisible by G.
Solve this cryptarithmetic (each letter represents a unique digit 0 to 9).  GO + ON = BOB, given that BOB is divisible by G.


[[Category: Cryptarithmetic]]
==Help==
 
{{Hint | If you can decide what B is first, then that drastically limits the possibilities for G.}}
 
{{Answer | <m>97 + 74 = 171</m>}}
 
{{Solution | The sum of two 2-digit numbers has to be less than 200 (because 99+99<nowiki>=</nowiki>198), so B < 2.
 
B is not 0, because that would require the sum of two 2-digit numbers to be less than one of those 2-digit numbers (specifically, "BOB" would be "ON" rounded down to a lower multiple of ten).
 
Hence  B <nowiki>=</nowiki> 1. Which means "BOB" is one of 101, 121, 131, etc. (Not 111, because each letter represents a unique digit.)
 
Knowing that "BOB" is divisible by G, we can look up 1-digit factors of candidates for "BOB". (In the old days, mathematicians would have had tables for this. We have the Internet.)
 
141 has factor 3; 161 has factor 7; 171 has factors 3, 9. No other candidates for "BOB" have 1-digit factors other than 1.
 
Trying the candidates one at a time:
*34 + 4_ <nowiki>=</nowiki> 141 (obviously not, as 34+49 is only 83)
*76 + 6_ <nowiki>=</nowiki> 161 (obviously not, as 76+69 is only 145)
*97 + 7_ <nowiki>=</nowiki> 171 (this is the only candidate where the sum is in the right range)
 
171 - 97 <nowiki>=</nowiki> 74, which gives 97 + 74 <nowiki>=</nowiki> 171 as the equation represented by the words. }}
 
==See also==
 
[[Cryptarithmetic]]
 
[[Lean meat]]
 
[[Category: Cryptarithmetic puzzles]]
[[Category: Number theory]]
[[Category: Number theory]]

Current revision as of 18:34, 14 July 2013

I believe this is original.

Puzzle

Solve this cryptarithmetic (each letter represents a unique digit 0 to 9). GO + ON = BOB, given that BOB is divisible by G.

Help

Hint
If you can decide what B is first, then that drastically limits the possibilities for G.
Answer
{{{1}}}
Solution
The sum of two 2-digit numbers has to be less than 200 (because 99+99=198), so B < 2.

B is not 0, because that would require the sum of two 2-digit numbers to be less than one of those 2-digit numbers (specifically, "BOB" would be "ON" rounded down to a lower multiple of ten).

Hence B = 1. Which means "BOB" is one of 101, 121, 131, etc. (Not 111, because each letter represents a unique digit.)

Knowing that "BOB" is divisible by G, we can look up 1-digit factors of candidates for "BOB". (In the old days, mathematicians would have had tables for this. We have the Internet.)

141 has factor 3; 161 has factor 7; 171 has factors 3, 9. No other candidates for "BOB" have 1-digit factors other than 1.

Trying the candidates one at a time:

  • 34 + 4_ = 141 (obviously not, as 34+49 is only 83)
  • 76 + 6_ = 161 (obviously not, as 76+69 is only 145)
  • 97 + 7_ = 171 (this is the only candidate where the sum is in the right range)
171 - 97 = 74, which gives 97 + 74 = 171 as the equation represented by the words.

See also

Cryptarithmetic

Lean meat