For closed under addition for every u,v€ H then u+v€H ,Does it asks for position vectors?...in example 4 15:00 you considered position Vectors which weren't in set H
in example 4 at 15:00 does that apply to only lines that don't pass through the origin, or all lines in general. And also, does this only apply in R^2 and not in different dimensions?
You teach these concepts far better than any of my professors, thank you! All these concepts make far more sense when you explain them.
Best ever series of linear algebra i got till now
Hey man , Best one so far ! I was struggling to grasp the concept thill this one. Subscribed !
Sir can you make videos on Linear regression and other decomposition like LU, QR etc?
Thanks a lot for the best lectures on Linear Algebra!
For closed under addition
for every u,v€ H then u+v€H
,Does it asks for position vectors?...in example 4 15:00 you considered position Vectors which weren't in set H
There's no distinction between "position vector" and "vector."
Today I enjoy the mathematics
in example 4 at 15:00 does that apply to only lines that don't pass through the origin, or all lines in general. And also, does this only apply in R^2 and not in different dimensions?
thanks a lot ~~
you saved my life
thanks ma'am
teaches the concept in half the time compared to my teacher but is more potent and informational. teachers are just under paid :(