@@redgefleming1535 I have a gf, but I still find this teacher very attractive....so maybe stop going mad critic with ur keyboard and start appreciating her talent and dedication? considering she's helping so many teachers do their job?
In my life I consumed a lot of media, most of theme is Japanese , how is possible that this video, a video about circuit theory, is the cutest thing I ever seen? World cannot describe how surreal is this thing. thanks by the way, very helpful, you made my the day better.
Me too 😍 Seriously I was looking to something explaining initial condition of capacitor because it confuses me. Thank you . I am now fan of the channel 🥰
hahaha...that was fun..and the best thing is one gains confidence by correcting the teacher. So you actually did provide a domain where we can do that. Thanks, love.
A very great explanation by a very beautiful voice. If I can get a chance to meet her in future then I'll definitely propose her too sweet voice. Keep it up😍😍😍
At 10:21 the drawing on the left has the capacitor in it but the solution drawing to the write includes an inductor and the opposing current source; are we doing the Laplace Transform for a capacitor or inductor?
Is s supposed to mean second^-1 ? I mean you said R = C^-1 * s^-1.. 1ohm is kg*m^2/(second*Coulomb^2) and 1F is second^2*Coulomb^2/(kg*m^2).. If you divide 1ohm by 1/1F (essentially multiplying the two), you get 1 second. But that s you wrote in that formula is in the denominator, essentially suggesting that s stands for second^-1. Is that correct?
This Laplace is more confusing more than the applied electronic mathematics taught in a 2 two year Electrical/Electronics Engineering Associates degree. Engineering Technicians never use LAPLACE transforms in BREADBOARDING / CONSTRUCTING / TESTING electronic circuits in the practical world.
I think I'm in love with this teacher...LOL
Me too😍
these guys are too thirsty...
@@photon2724 they cant get a girl friend obviously
@@redgefleming1535 I have a gf, but I still find this teacher very attractive....so maybe stop going mad critic with ur keyboard and start appreciating her talent and dedication? considering she's helping so many teachers do their job?
@@zhanggodfather8053they didnt say they love her teaching but her lol
In my life I consumed a lot of media, most of theme is Japanese , how is possible that this video, a video about circuit theory, is the cutest thing I ever seen? World cannot describe how surreal is this thing. thanks by the way, very helpful, you made my the day better.
I'm just trying learn topics for my intro to circuits class, but this comment section is on something else
Weird right
Thirsty people
Huh?
best laplace explanation on circuits !!!
Im a psychology major... i just came here to hear your beautiful voice.
Me too 😍
Seriously I was looking to something explaining initial condition of capacitor because it confuses me. Thank you . I am now fan of the channel 🥰
hahaha...that was fun..and the best thing is one gains confidence by correcting the teacher. So you actually did provide a domain where we can do that. Thanks, love.
Beautiful explanation! Thankyou
You are not only teacher you are best friendly teacher.......love you mam
I wish I had someone to teach me like you 😍
you have a beautiful voice btw, thanks for helping me (and all of us out)!
Thanks! for the help.Enjoyed the video🙂
Obsessed with your voice ma'am ❤❤❤😊
I like your enthusiasm :)
The cuttest class ever! Thank you, it helped a lot!
Very helpful thank you ❤
wowww..i think there is a magic in your sound...
Thank you. Nice explanation.
very clear explanation!
sweet voice...i could listen to you all day
Wow super
Even I have fallen love with this teacher
love this video, thank you !
i could listen to her all day
Very useful video! thx
You are awesome, thanks.
Tqsm, Thanks ❤️ a lot!
Made life easier 😁
Thankyou so soo much. This individual topic was very important and doubt full until now. :))))
thanks you very much,
now i can solve Laplace problems ♥ ♥
Sweetest teacher ever 🥺
Thanks ! ❤
sorry I got it late, next time I'll wait towards the end, you caught it, good job (nice voice :)
A very great explanation by a very beautiful voice.
If I can get a chance to meet her in future then I'll definitely propose her too sweet voice.
Keep it up😍😍😍
your have such a nice Way to teach i love you
What is the input device / input method u have used for recording this lecture.?
Electrical Engg thats y is so interesting ... Calculas at peak ..almost all operators r used from Laplace to vectors
Drink some water guys, so much thirst in here. I need to learn.
ASMR is good for learning.
Thank you
at 10:36, should that be the capacitor symbol instead of the inductor symbol?
Thanks!!
hi When to use parallel or series initial condition on laplace please let me know
your voice is so cute and relaxing
I love the inductor sound ju ju ju jum 😅
Thank you for this video
At 10:21 the drawing on the left has the capacitor in it but the solution drawing to the write includes an inductor and the opposing current source; are we doing the Laplace Transform for a capacitor or inductor?
So it looks like an inductor but its more of a square box that has the impedance of 1/(sC), so ITS NOT AN INDUCTOR.
Thanks
She's adorable
hello thank you so much
baby I could hear you all day!
Is s supposed to mean second^-1 ? I mean you said R = C^-1 * s^-1.. 1ohm is kg*m^2/(second*Coulomb^2) and 1F is second^2*Coulomb^2/(kg*m^2).. If you divide 1ohm by 1/1F (essentially multiplying the two), you get 1 second. But that s you wrote in that formula is in the denominator, essentially suggesting that s stands for second^-1. Is that correct?
Thank you! Also, lol @ cuz life goals and stuff 🙃
Youre the best teacher
well explained
Very good
awsm
I think i've fallen in love with your elegant voice..
Best video I've seen on the subject. Most are either too slow or too fast, and the quality of writing or drawing is not good.
In Inductor why polarity is opposite ??
The down going current at 11:39 should be C*s*V(s). The labeled 1/sC is the impedance of what should be a capacitor.
I believe that is what she did.
Yes that is right. The down going current is CsV(s). I think all she said was that the impedance was 1/Cs
At 4:06 you said sL is the inductance.. isn't it the impedance?
π lot both are correct.
yes it is
i love you by your voice
Thank you for sharing.
PS : mellifluous voice detected.
Nice explanation the only question I have is @11:19 how come CS was change to 1/CS.
cause it's a current and current = voltage over impedance so v(s)/(1/cs) = v(s) cs
10:37 should be capacitor symbol, right and the value should be Cs V(s) = i, because it is representing the current
there's a lot of cringy desperate guys posting "" i love her" on here. its weird af.
dont be mad i think they are just joking. actually i got crush on her too even if i am a straight girl:D
@@ilaydamert1804 LMAO
i liked the way how she is enjoying while teaching thats kinda boring thing
your sound is same as diane from BoJack horseman
Your voice so lovely I like it...
Please reply
thirsty much?!
It annoys me how good people are at writing and drawing with a cursor!
its not a cursor, its a drawing pad.
that brother starving
Make video for RL RC RLC
She's thinking about soup 😂
Nice but if make an example ?!
I like her voice arrrrrr
👍🥰😍
this is a hot tutorial
u sound mad sweet
I love you
I think ,these dislikes r done by those who do not understand English
O my god what a explanation given by her ❤️
Yeet Yeet Pie Alamo!
people in this comment section need to touch some grass
5:08 : How do you know about me?
Haha you r so funny
Oh..my...god!
Your sweet voice could turn the wrong things into correct things. Peace in the way!
Baru faham
Nice teacher with awesome voice but not funny...
This Laplace is more confusing more than the applied electronic mathematics taught in a 2 two year Electrical/Electronics Engineering Associates degree. Engineering Technicians never use LAPLACE transforms in BREADBOARDING / CONSTRUCTING / TESTING electronic circuits in the practical world.
This is not for me. "SnugglyHappyMathTime" is making it up as it goes along! Bob Collins
OMG THAT VOICE UUHHHHHHHHHH 💦💦💦💦💦🤦♂️ /s
i am both enlightened and aroused at the same time
📸📸📸📸
wtf this isnt a stand up show
This video is so confusing. So many mistakes. Next time when you realize you have so many mistakes, you should redo the video
You should prepare better next time , your performance was poor .. too many mistakes , im sorry
it's a free video why waste more time than necessary. If it was a video in a paid course then yea....