(2:37) A small cause of confusion there! For most people, the boolean Absorption Law is the theorems: A ∙ (A + B) = A and A + (A ∙ B) = A The theorem he is referring to is one of the two that make the the Law of Common Identities: A ∙ (ㄱA + B) = A ∙ B and A + (ㄱA ∙ B) = A + B Anyways, for anyone interested, here is a different and somewhat more detailed solution to the second exercise (I use Distribution): ㄱA ∙ ㄱB ∙ ㄱC + ㄱA ∙ ㄱB ∙ C + ㄱA ∙ ㄱC Given ㄱA ∙ (ㄱB ∙ ㄱC) + ㄱA ∙ (ㄱB ∙ C) + ㄱA ∙ ㄱC by Association ㄱA ∙ (ㄱB ∙ ㄱC + ㄱB ∙ C + ㄱC) by Distribution ㄱA ∙ ([ㄱB ∙ ㄱC + ㄱB ∙ C] + ㄱC) by Association ㄱA ∙ ([ㄱB ∙ {ㄱC + C}] + ㄱC) by Distribution ㄱA ∙ ([ㄱB ∙ {C + ㄱC}] + ㄱC) by Commutation ㄱA ∙ ([ㄱB ∙ 1] + ㄱC) by Complement Law ㄱA ∙ (ㄱB + ㄱC) by Identity Law (aka Intersection Law)
I slightly didn't understand on the first example, I only understood the chart, but when you began the 2nd example it clicked. Thank you so much, it's hard to understand this on a sheet.
Thanks a lot for this. I was completely lost before, and watching the first one I was like "HUH?!" but by the 3rd example I was able to simplify all on my own! I still need more practice, but again this REALLY helped me.
This helps sooo much than the online lectures that we are having right now during the Pandemic Staff having mic problems, connection issues on my part or inaudibility, so your little video really helped me out Thanks a lot :)
In the first example. What if we decided to use the A+1=1 rule and apply it to A.C.(1)+Ā and we get A.C.(1) Then we will have AC as an answer Will that be correct???
If you are reading this, and have a test coming up, please please please, just remember that chart he has, I made an A due to that
So kind of you. Thank you so much
@Mercury Si we have this in our syllabus.... I am in high school
I got A bar :(
yep! budy
@Mercury Si we have this in our syllabus .... and I am in high school
You're so much better at explaining this than my teacher. Thank you from this video I understood what I couldnt understand in class for like 3 weeks.
InstaBlaster...
youtube be like that
@@DarkArcticTV cri
Same
True
Man, I have Digital Electronics exam tomorrow but this guy's chart is a gem here. Thank you, man.
You just crushed my teacher on teaching this material. Thank you SOOO much!!
Fuck!
@@billionairediarie are you the teacher 😂
@@bishnugogoi9729 Hahaha
Ujefwwyw
Bishnu Gogoi the student has become the teacher
To remember demorgans remember the saying: Break the line change the sign
Thankyou so much man !!
Thanks alot.
legendddd
whhha... thanqqqqqqq
(2:37) A small cause of confusion there! For most people, the boolean Absorption Law is the theorems:
A ∙ (A + B) = A and A + (A ∙ B) = A
The theorem he is referring to is one of the two that make the the Law of Common Identities:
A ∙ (ㄱA + B) = A ∙ B and A + (ㄱA ∙ B) = A
+ B
Anyways, for anyone interested, here is a different and somewhat more detailed solution to the second exercise (I use Distribution):
ㄱA ∙ ㄱB ∙ ㄱC + ㄱA ∙ ㄱB ∙ C + ㄱA ∙ ㄱC Given
ㄱA ∙ (ㄱB ∙ ㄱC) + ㄱA ∙ (ㄱB ∙ C) + ㄱA ∙ ㄱC by Association
ㄱA ∙ (ㄱB ∙ ㄱC + ㄱB ∙ C + ㄱC) by Distribution
ㄱA ∙ ([ㄱB ∙ ㄱC + ㄱB ∙ C] + ㄱC) by Association
ㄱA ∙ ([ㄱB ∙ {ㄱC + C}] + ㄱC) by Distribution
ㄱA ∙ ([ㄱB ∙ {C + ㄱC}] + ㄱC) by Commutation
ㄱA ∙ ([ㄱB ∙ 1] + ㄱC) by Complement Law
ㄱA ∙ (ㄱB + ㄱC) by Identity Law (aka Intersection Law)
Thank you !!
thank you because i was looking at it and i was like what this was not it. But thanks for clarifying
I slightly didn't understand on the first example, I only understood the chart, but when you began the 2nd example it clicked. Thank you so much, it's hard to understand this on a sheet.
Thanks a lot for this. I was completely lost before, and watching the first one I was like "HUH?!" but by the 3rd example I was able to simplify all on my own! I still need more practice, but again this REALLY helped me.
Well explained
ive just joined a computing class halfway through the semester and I really struggled on learning this. thanks so much
This helps sooo much than the online lectures that we are having right now during the Pandemic
Staff having mic problems, connection issues on my part or inaudibility, so your little video really helped me out
Thanks a lot :)
The transformation of the same solution into various forms in Problem 2 would be really helpful for Multiple Choice Questions..... Great work!!
thanks man! it was really confusing topic but you explained it very nicely.
Very good explanation, and nice English too. You deserve more subscribers
Very clear and detailed explanation about simplifying the logical functions. Thanks a million.
didn't really understand at class, thanks to this video I got more insight about this and learned new tidbits.
not alot of videos help but let me say this helped another lost soul thank you brother
Kind of wish my online course explained it this way. Thanks :)
this will really go a long way in me understanding it
Thanks man! I appreciate this walkthrough. My CS Final exam in uni is just 2 days away and I was potatoes in this topic
Meu mano você me ajudou muito a entender como funciona e eu agradeço muito por isso, abraços do Brasil!
me salvou tambem!!
man THANK YOU i've been trying to understand this for the last hour and watching your video just helped it click.
Thank you for making something that was difficult for me to understand, understand fully well now thanks to your lesson.
thank you
من العراق
Excellent explanation 🎉❤
Your way of teaching is the best. It is easy to follow and understand. You just made my work easier.
what an absolute mad lad,really helps me a lot
you're still saving lives after 5 years even !!!!!
MUCH LOVE MAN
i love how my lecturer just expected people to be able to do this
Here for the same reason brotha lol
Thank you very much . This video helps me a lot , for my studies. so again Thanks a lot .I'm from Sri Lanka
Thanks man really helpful straight to the point.
Thanks for making this logic so simple for uss❤️❤️
Thank you 😊
Loved your explanation.
Proving A + A'B = A + B / Answer: (A + A')(A + B)
thank u so much
it will really help me in tommorrow's exam
Thank you very much for this video.. really helpful
thank you for this video, it really helped me a lot.
Imagine watching this video after your exam and then see that one of your exam questions was actually in this video 🙃
Very helpful, thank you sir!
Excellent demonstratation of Boolean, was a nice & quick refresher!
This is the 1st time I saw your video..... And I admit that your explanation is just awesome..... Enjoyed during your explanation.....
This was an excellent exercise, thank you!
thank you it benefits me a lot while studying
We have different notation, but this is just so much clearer to me, thank you!
Yeah we too. Idk why they dont use this Instead they do it like A' + B' which is annoying.
very interesting, helped me a lot to clear my concepts, thank you, sir.
Thank you!!! I was so confused before this!!
Happy to help!
Wow.. this guy is amazing for real💯
Amazing Video thank you sm, this really helped me with my Electrical Engineering Class
Didnt get what my professor was saying AT ALL, then you simply said "and" "or" and it all just magically clicked. W
you are great you solved my doubt
of my first class
First question: the class
Second: the homework
Third: the test
In all seriousness thank you it helped alot
Thank you 😊❤️ i understand it very easily 😊
I think I am alonly Arab girl here, and tomorrow i has a final exam at the University of Electrical Engineering
Amazing Explanation... Thank you
Thanks so much , this actually helped alot
Glad it helped
I'm grateful to you sir, my utmost veneration to you. I've perceived well
In the first example. What if we decided to use the A+1=1 rule and apply it to A.C.(1)+Ā and we get A.C.(1)
Then we will have AC as an answer
Will that be correct???
I think Dot in expression represents AND
are you talking about the periods. I think theyre not necessary. You could just place two different variables and we'd know what is happening
Yes dot means and
Wow, you made me understand this so easily
I’m a freshman taking algebra 1. I have no idea what’s happening right now but skills my G
Simplifying Boolean expressions for Logic gates in Digital electronics unit for CS and Electrical engineering.
AMAZING MAN SO HELPFUL .......GOOD
excellent exercises thanks
Exam on this in CMPEN 270 at PSU thanks mate
Thankyou sir😊😊😊
It helped me a lot !!
Well explained ! ❤️❤️
Thank you for this lesson
Thanks a lot, this is very helpful for nut brainer like me
Thanks dude, your video helped me a lot!
Great example of Discrete Math course that i had, well explained
Thanks a lot sir after 3 hours my preboard exam will held 🤓
Dary is a comedian hle🙌🙌🙌😂😂😂I've been laughing through the whole video
Thank you sooo much sir. I hope I can solve all problems from now, just practice...
Thanks for sharing it with us
I follow you from Egypt
ma teacher sent me here, he sent me to the right place!
haha. ikr
Very helpful. Thanks
very clear explanation thanks!
Simple and smooth
Thanks a lot mate.
Thanks brother 😊 i from India
Thanks alot
absolute legend thank you soooooooooo much
I was the 4k person to like the video ;) thank you very much
You are very nice teacher 👏😊
Thanks
Thank you very much great work😀😀
So helpful ❤❤❤😍😍😍tq sooooooooo much
Thank you, dude.
Explanation Is Very Good But Speech Words Is Disturbing In Screen. So Pls May Correct it.
Thanks a lot for this.
thank you bro you have explain beautiful any part of ques
thank you so much sir i really learned it well but can you tell me what does that dot mean between letters for example "A.B" ?
thanks very much I understand it easly
so nice thanks
Fantastic, tysm!!!
3:47 don't get the last 2 lines and how did he use the absorption rule
A'B' is common in both variables....So he took A'B' and left (C'+C)...
Thanks your video is so helpfull
It so helpful .Thank you!
Thank you
Thanks for this. Lesson boy. Expert
Thank you, it's clear now
Nice concept sir
Excellent teaching sir
Tnq so much sir