I am trying to solve this but am having a hard time: ' means complement Y = A'B' + A'BC' + (A + C')' My attempt: A'B' + A'BC' + A'C A'(B' + BC' + C) Now this is where I am lost at. Somehow parenthesized expression evaluates to 1 but am not sure how. EDIT: Solved now.
-
I don't think you should ask about boolean logic here.– MoxMay 19, 2015 at 2:58
-
Where else should I ask it?– theProdigyLebronMay 19, 2015 at 3:02
-
Not too sure, but here is what i have worked out. A'B' + A'BC' + (A + C’)’ = A’B’ + A’BC’ +A’C = A’(B’+C +BC’) = A’(B’+C+B) = A’(C+1) = A' The rule that you needed was this A+A'B = A+B– MoxMay 19, 2015 at 3:03
-
Ahhh I see. I was forgetting that when you do or with 1, it simplifies to 1. Thanks!– theProdigyLebronMay 19, 2015 at 3:11
1 Answer
I always like to write a program for this sort of stuff to see if the logic reasoning will hold out:
#include<stdio.h>
int main (void) {
puts ("A B C");
for (int a = 0; a < 2; a++) {
for (int b = 0; b < 2; b++) {
for (int c = 0; c < 2; c++) {
int x = !a && !b;
int y = !a && b && !c;
int z = !(a || !c);
printf ("%d %d %d -> %d %d %d -> %d\n",
a, b, c, x, y, z, x || y || z);
}
}
}
return 0;
}
The output of that is:
A B C
0 0 0 -> 1 0 0 -> 1
0 0 1 -> 1 0 1 -> 1
0 1 0 -> 0 1 0 -> 1
0 1 1 -> 0 0 1 -> 1
1 0 0 -> 0 0 0 -> 0
1 0 1 -> 0 0 0 -> 0
1 1 0 -> 0 0 0 -> 0
1 1 1 -> 0 0 0 -> 0
and you can tell that the simplified expression is just A'
. You can also see the reason why, due to the middle section which shows the three individual terms which are OR
-ed together to get the final result.
When
A
is true (the final four lines), all three terms are false, soOR
-ing those gives false as well. The first two termsA'B'
andA'BC'
are false because they bothAND
with the falseA'
. The final term hasA+C'
which is always true (because trueOR
anything is true), meaning that the negation of that is always false.Turning to the top four lines, when
A
andB
are both false, the first termA'B'
is true, so the other two terms don't matter (trueOR
anythingOR
anything is true).That leaves only the third and fourth line. On the third,
A
andC
are both false andC
is true, meaning that the middle termA'BC'
is true.The fourth line has
A
false andC
true soA+C'
gives false or false -> false so the third term(A+C')'
is true (B
is irrelevant).
Doing it the CompSci way, you just have to step through it, applying rules:
A'B' + A'BC' + (A+C')'
= A'B' + A'BC' + A'C # "De Morgan" final term [note 1]
= A'(B' + BC' + C) # extract common A' [note 2]
= A'(B' + B + C) # (B and not C) or C -> B or C [note 3]
= A'( T + C) # (not B or B) -> true [note 4]
= A'( T ) # true or anything -> true [note 4]
= A' # X and true -> X [note 4]
Notes:
1/ De Morgans law simply states that a'b' -> (a+b)'
and a'+b' -> (ab)'
.
2/ The distributive law ax+ay -> a(x+y)
.
3/ Not sure if this law has a name but, if c
is true, the whole expression is true. If c
is false then it comes down to b and true
or just b
. That's effectively b+c
.
4/ These go without saying though, as any good mathematician should tell you, very little should go without saying in formal proofs :-)