Difference between revisions of "De Morgan's Law"

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https://www.youtube.com/watch?v=HoH0PrS3WNI&list=PLCiOXwirraUA9HyHoqOaGBU_k6nBRCb22&index=6
  
 
==The Process==
 
==The Process==

Revision as of 13:37, 10 June 2018

DeMorgan's laws are the laws of how a NOT gate affects AND and OR statements. They can be easily remembered by "break the line, change the sign". The following image is how to prove De Morgan's Law...

Capture3.jpg

Further explanation:

https://www.youtube.com/watch?v=HoH0PrS3WNI&list=PLCiOXwirraUA9HyHoqOaGBU_k6nBRCb22&index=6

The Process

Step 1 - Reverse the sign

Step 2 - Negate each term

Step 3 - Negate the whole expression

How to apply

Example 1

[math] \overline{(\overline{A+B})+B} [/math]

Now we use De Morgan's law to the whole equation and we treat A+B as one.

[math] (A+B).\overline {B} [/math]

[math] \overline {B}.A + (\overline{B}.B) [/math]

[math] \overline{B}.A + 0 [/math]

[math] \overline{B}.A [/math]

Example 2

[math](\overline{A+\overline{B}).\overline{A}}[/math]

Example 3

[math] \overline{((\overline{A+B}).\overline{A}} [/math]

Simplifying by using De Morgan's Law:

1. Swap the sign:

[math] \overline{((\overline{A.B})+\overline{A}} [/math]

2. Negate each expression:

[math] \overline{((A.B)+A} [/math]

3. Negate the whole Expression:

[math]((A.B)+A [/math]

Using Redundancy law this expression can be simplified to:

[math] A [/math]

This is because if A is 1, the output will always be 1, regardless of the value of B.

Example 4

[math] (\overline{A} + B) . \overline{(A + (\overline{B + A})}) [/math]

Applying De Morgan's law to the inner bracket

[math] (\overline{A} + B) . \overline{(A + (B + A)}) [/math] Inverting the not gate above the bracket

[math] (\overline{A} + B) . \overline{(A + (B . A)}) [/math] Swapping signs

[math] (\overline{A} + B) . \overline{(A + (\overline{B} . \overline{A})}) [/math] Inverting not gates above terms

Applying De Morgan's law to the right bracket

[math] (\overline{A} + B) . (A + (\overline{B} . \overline{A})) [/math] Inverting the top not gate

[math] (\overline{A} + B) . (A . (\overline{B} + \overline{A})) [/math] Swapping signs

[math] (\overline{A} + B) . (\overline{A} . (B + A)) [/math] Inverting not gates above terms

Now that it is easier to simplify, we can do that

[math] (\overline{A} + B) . ((\overline{A} . B) + (\overline{A} . A))) [/math] Applying the distributive law

[math] (\overline{A} + B) . ((\overline{A} . B) + 0)) [/math] Applying an identity law

[math] (\overline{A} + B) . (\overline{A} . B) [/math]

[math] (\overline{A} . \overline{A} . B) + (B . \overline{A} . B) [/math] Expand the brackets

[math] (\overline{A} . B) + (\overline{A} . B) [/math] Use identity [math] X . X = X [/math]

[math] \overline{A} . B [/math] Use identity [math] X + X = X [/math]

Example 5

[math] \overline{\overline{(\overline{A}+A.(A+B))} + (B . C)} [/math]

Example 6

[math] \overline{\overline{(A+A.(\overline{A+B}))} + (B . C)} [/math]

Example 7

[math] \overline{(\overline{A}+A.(A+B))} + \overline{(B.C)} [/math]

[math] \overline{(\overline{A}+A+A.B)}+(\overline{B}+\overline{C}) [/math]

[math] (A.\overline{A}.\overline{A}+\overline{B})+(\overline{B}+\overline{C}) [/math]

[math] (A.\overline{A}+\overline{B})+(\overline{B}+\overline{C}) [/math]

[math] (0+\overline{B})+(\overline{B}+\overline{C}) [/math]

[math] \overline {B}+(\overline{B}+\overline{C}) [/math]

[math] \overline{C}+(\overline{B}+\overline{B}) [/math]

[math] \overline{B}+\overline{C} [/math]