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You know you save lives, right?
Ha! Thanks.
lol wtf bro
@@Ruichen8104 It's true man
I was studying this at university and totally not getting it, and you've cleared it up in two videos and 15 minutes. Thank you!
This is the place to be for understanding MGFs!
Thanks!
That’s such a good and direct explanation. Thank you so much, you’re a legend!!
Excellent video and concept of the channel, congratulations.
God bless you for your insight. This is exceptional!
Quick and straight forward!
thanks a million!
My gosh if only i found this video sooner, my exam is tomorrow morning.
thank you for these gems
this video is well done. it is important that you watch part 1 to understand part 2.
Useful video. thanks.
this is gold
Very useful. Thank you
You just saved me 2 days of worthless web scraping.
Waooo... So easily explained. Thank you
explanation is perfect! But there is problem with the sound quality of the video. Audio is kinda problematic.
Is there any other video for Bernoulli's?
THanks a lot
Great pair of videos! Thanks! Though, shouldn't these be considered partial derivatives?
How did you get 1-p
Thanks mam
Saving my exams
is there any textbook we can use to practice these??
Definitely! One such example is a textbook by Hogg, Tanis, and Zimmerman.
@@ProfessorKnudson thank you!!
Could someone plz explain what is the variable t, and why we evaluate the integration at t=0 ?
see the part 1, you'll get it :)
I don’t understand house the derivative of pe to the t remains the same. Someone help
The derivative of e^t with respect to t is simply e^t. p is a constant so that just stays in front.
Ok mam
Damn u r so pretty , I can't focus on mgf
Why t=0?
audio is not good
Use earphones or headphones
You know you save lives, right?
Ha! Thanks.
lol wtf bro
@@Ruichen8104 It's true man
I was studying this at university and totally not getting it, and you've cleared it up in two videos and 15 minutes. Thank you!
This is the place to be for understanding MGFs!
Thanks!
That’s such a good and direct explanation. Thank you so much, you’re a legend!!
Excellent video and concept of the channel, congratulations.
God bless you for your insight. This is exceptional!
Quick and straight forward!
thanks a million!
My gosh if only i found this video sooner, my exam is tomorrow morning.
thank you for these gems
this video is well done. it is important that you watch part 1 to understand part 2.
Useful video. thanks.
this is gold
Very useful. Thank you
You just saved me 2 days of worthless web scraping.
Waooo... So easily explained. Thank you
explanation is perfect! But there is problem with the sound quality of the video. Audio is kinda problematic.
Is there any other video for Bernoulli's?
THanks a lot
Great pair of videos! Thanks!
Though, shouldn't these be considered partial derivatives?
How did you get 1-p
Thanks mam
Saving my exams
is there any textbook we can use to practice these??
Definitely! One such example is a textbook by Hogg, Tanis, and Zimmerman.
@@ProfessorKnudson thank you!!
Could someone plz explain what is the variable t, and why we evaluate the integration at t=0 ?
see the part 1, you'll get it :)
I don’t understand house the derivative of pe to the t remains the same. Someone help
The derivative of e^t with respect to t is simply e^t. p is a constant so that just stays in front.
Ok mam
Damn u r so pretty , I can't focus on mgf
Why t=0?
see the part 1, you'll get it :)
audio is not good
Use earphones or headphones