# Boolean gate logic

I've got this expression and I believe I have the circuit drawn out correctly however I think the truth table for it is a trick question. There is 4 inputs and 2 of them are A and the other 2 are B and C. Here is what I've drawn out:

Here's what I've done for the truth table.

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what's your question? –  axiopisty Oct 25 '13 at 20:54
How is the truth table drawn out m8? –  Rapidz Oct 25 '13 at 20:55
Compute `A AND B`, then `A AND C`, then the `NOR` of the two (each in separate columns). Each step should be fairly trivial. –  Dukeling Oct 25 '13 at 21:04
This question appears to be off-topic because it is not about a specific programming problem. Seems like more of a general Computer Science problem (although they may not be particularly welcoming to this particular question). –  Dukeling Oct 25 '13 at 21:38
Either your inputs are labeled wrong or your schematic is drawn wrong. The schematic for the expression would have the "A's" on both AND gates shorted together, which would give you 3 distinct inputs. You can check your truth table using mustpax.github.io/Truth-Table-Generator –  Kastor Oct 26 '13 at 21:42
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Your logic expression can be simplified using Boolean Algebra.

``````(ab + ac)'
``````

Factor out `a`:

``````(a(b + c))'
``````

Apply De Morgan's law for negation of a conjunction:

``````a' + (b + c)'
``````

Apply De Morgan's law for negation of a disjunction:

``````a' + b'c'
``````

Therefore, output is true:

• anytime `a` is false, OR
• when `b` is false AND `c` is false

Here is your truth table with corrections:

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Ok I've taken advice and broken it into smaller chunks. gyazo.com/229efc4e4c8908546e19958a6205c417 –  Rapidz Oct 25 '13 at 21:41
Thanks man. Appreciate it –  Rapidz Oct 25 '13 at 22:03