Whoo😲, you´ve got such a great intuition on this abstract concept, I use to get the intuition as a natural solution for a 2x2 system of equations but never as a geometrical system as you did. Thanks for sharing your knowlegde
For anyone wondering: I chose simpler cases for this video just to get an idea of how the matrix elements work together in the determinant. Deriving the formula for all cases gets more complicated!
I am angry that no one ever explained determinants geometrically. This video just clicked my imagination. Did someone suggest this guy grow a beard to look older? I don't care how old he is; he's doing a fine job my professors didn't.
Whoo😲, you´ve got such a great intuition on this abstract concept, I use to get the intuition as a natural solution for a 2x2 system of equations but never as a geometrical system as you did. Thanks for sharing your knowlegde
This series deserves a lot lot .... views. Thank you. Please keep it.
For anyone wondering: I chose simpler cases for this video just to get an idea of how the matrix elements work together in the determinant. Deriving the formula for all cases gets more complicated!
I'm from india !it was really easy to understand from the concepts you explained thankyou sm !! >>>
I sincerely love your videos.
Hope your channel grows a lot
nice different explanation, thankyou
I am angry that no one ever explained determinants geometrically. This video just clicked my imagination. Did someone suggest this guy grow a beard to look older? I don't care how old he is; he's doing a fine job my professors didn't.
conclusion: the determinant of a matrix represent the area between the two vectors ? Am I right ?
If we use the two vectors as sides of a parallelogram, then the determinant is the area of that parallelogram!
Now do it for higher dimensions pls
Don't worry, the 3D version is coming out tomorrow!
You could have proven it by putting the other half of the parallelogram inside the 3x1 rectangle
Like the beard
nice beard
수염기르지마ㅜㅜ