Actually the order for the constants (a,b,c) in the imaginary part solution in the second part of the video as against the real part solution is the reverse direction. While the real part solution works in this form ax^2+bx+c=0. Adopting the poly root approach from LabView, the presentation is cx^2+bx+a=0.
Thank you so much i thought that there's something wrong with my VI. Turns out that you are correct: The order of wiring in the poly root approach is the reverse of the real part solution. Which means that from 7:32 of this video, the wiring from the upper left of the BUILD ARRAY function should be from C to A (c at top, b at the middle, and a at the bottom). Thank you so much sir!
Actually the order for the constants (a,b,c) in the imaginary part solution in the second part of the video as against the real part solution is the reverse direction.
While the real part solution works in this form ax^2+bx+c=0. Adopting the poly root approach from LabView, the presentation is cx^2+bx+a=0.
Thank you so much i thought that there's something wrong with my VI. Turns out that you are correct: The order of wiring in the poly root approach is the reverse of the real part solution. Which means that from 7:32 of this video, the wiring from the upper left of the BUILD ARRAY function should be from C to A (c at top, b at the middle, and a at the bottom). Thank you so much sir!
Good...Informative video
THANK YOUUUU
if a=0 ?