@@IZITOFERNANDES i also went crazy, i had to use google IP to binary conversion coz the math was not mathing , before i read the replies lol. But overall he did great.
Your videos are the best ones i found so far. Please explain IPv6 Subnetting and subtopics from IPv6 as easy as you did with ipv4. I'm happy, i just understood ipv4
I think I understand most of it but started getting lost towards the end when you marked the ip dotted numbers as equaling 8 bits and it came to 255? Im still trying to figure how that number came up
2:49 there's 8 bits represented. If you put them all together, it adds up to 255, with 256 possible variations (the last variation being all 8 zeroes being equal to zero). And IPv4 address is made of 4 octets (8-bits).
@@jansykora2493At 7:46, why do the 192 and 168 have 8 numbers, but the 5 and the 2 only have seven numbers? Why don't the 5 and the 2 also have 8 numbers?
Spotted a typo in the video description, I think it should be 8-bit instead, in "IP addresses are really just binary numbers, divided up into 9-bit sections".
you explained this so much better than a 15 minute school video that made it more complicated than it needed to be
IDK where you went but we all wish you would continue making videos. You are a natural teacher...
That’s amazing you explained this in such a way in where it was easy for my brain to comprehend
This is the best and easy video, I understood it almost immediately. Thank you!
168 is wrong, it’s 10101000
I was going crazy thinking i was wrong lol
It Should be 10101000. But AnywAY HE MADE EVERYTHING IS EASY
@@IZITOFERNANDES i also went crazy, i had to use google IP to binary conversion coz the math was not mathing
, before i read the replies lol. But overall he did great.
That Smile at the end was just the cherry on top , thank you for the great explanation sir, Cheers!
Your videos are the best ones i found so far. Please explain IPv6 Subnetting and subtopics from IPv6 as easy as you did with ipv4. I'm happy, i just understood ipv4
No one talking about the binary he got for converting 168
I saw that...he writes 10100100 which is wrong.The correct one is 10101000
I noticed that too lmao, I was converting it before I finished watching the video to see if our answers would be the same
yes! thankyou thought I was going insane for second, had to pull up the calculator just make sure
THIS IS CRAZY! Perfectly explained. Come out of wherever you are and continue making videos, please.
Hi... I am sorry 168. is in binary 10101000?
Yes. www.binaryhexconverter.com/decimal-to-binary-converter
My mistake! See that I wrote it down incorrectly. Thanks for pointing that out.
wow, you're a life saver bc the way i just read 2 pages explaining it out... THANK YOU
Better than my lecturer, thank you!
You are a genius, brother. So happy I found your video!!!
I'm gonna save this video to clearly understand IP addresses every time I get confused with them (once again :P)
Thank you !
Old fashioned paper and pen-loved it!
Thank You Mr. Oliver!!
* 8:13 168 its 10101000 not 10100100 or i dont understand something ?
Wow! Video published after 3 and ....... years
How come for 5&2 , you only made them 7 digits instead of the 8 byte?
Can you start a series on Analytical Geometry
what topics?
@@carloliver4402 Coordinate and Three dimensional Geometry
It was better explained however the extra 0’s weren’t needed tbh 1 means on & 0 means off so all the numbers on just put 1 & 0 for off
this helped me do my extremely difficult hw tonight
Man, finally someone with a simple explanation. Thank you so much 👍🏻.
Great explanation
I think I understand most of it but started getting lost towards the end when you marked the ip dotted numbers as equaling 8 bits and it came to 255? Im still trying to figure how that number came up
2:49 there's 8 bits represented. If you put them all together, it adds up to 255, with 256 possible variations (the last variation being all 8 zeroes being equal to zero). And IPv4 address is made of 4 octets (8-bits).
@@jansykora2493Hi, I have a question
@@jansykora2493At 7:46, why do the 192 and 168 have 8 numbers, but the 5 and the 2 only have seven numbers? Why don't the 5 and the 2 also have 8 numbers?
Spotted a typo in the video description, I think it should be 8-bit instead, in "IP addresses are really just binary numbers, divided up into 9-bit sections".
Corrected. Thanks very much for spotting that.
Extremely helpful video
Thank you so much ❤
Thank you very much, please check the 168
that one yes.
You know, he did it correctly in one of his other videos. That is what I understood. It is 10101000 for the 168.
@@susml767thankfully I wasn't the only one like wait a minute that isn't right.
genius teaching wish you are my prof
So the part that confuses me is its 8 1and zeros to those number but 2^8 is 256 not 255
Man I worded that horribly
Wow very helpful thanks 🔥🔥
damn, made it so easy thank-you
okay...I'm confused. With 12 hosts, my professor got 4 bits. I'm only getting 2 following your example
Thanks so Much for Great Explanation, God Bless You ! but Could you please explain to me IF Binnary Of 168 are 10100100? Why Not 10101000
waittt guys i dont understand the 168 one is it not 10101000? what did i do wrong here?
Thank you!
THAT IS THE MOST AMAZING EXPLANATION EVER BETTER THAN THE COMPLICATING SCHOOL VIDEOS YOU NEED MORE SUB,VIEWS,AND LIKE YOU DERESEVE MOREE
Thanks for this
thank you!!
you are the best! wow!
Thank youuuu!!
I need converting for dummies. I flunked algebra. Never have been good at math
Thx
Carl Oliver you a good friend of mine
you are the best
It's wrong on 168😂😂
half of a teachers pay is to complicate you. thanks for not being like them
The binary to decimal conversion at last is giving me value 3231974658 can u tell me how u arrived at value 807,993,986
I cant figure out how he got the number either 😪
When I add up the numbers, I get 367. How did you get your numbers?
@@luketheduke007I got 367. What number did you get?
thank you!!!