Your way of finding the coefficients of the linear combination just blew my mind! If I were at that point, I'd take the usual donkey work of foiling out and setting the coefficients of like terms equal. Excellent solution, sir. Thank you.
Hi Skyefall. good idea! I don't recall ever doing a derivative on the channels. I'll look into it at some point because there are some interesting derivatives out there
Your way of finding the coefficients of the linear combination just blew my mind! If I were at that point, I'd take the usual donkey work of foiling out and setting the coefficients of like terms equal. Excellent solution, sir. Thank you.
Thanks! And multiplying out those coefficients is a good way too! :)
Awesome evaluation - great wishful thinking. I must say you out thought the Bee guys with this great wishful thinking.
Thanks Mohan! I wonder if the "Bee guys" had a different method in mind. 🤔
@@owlsmath - would love to see it, if it exists.
@@owlsmath - would love to see the different method. If it exists.
Excellent approach
thanks Slavino!
Nice tackling of problem sir please bring some derivatives also along with integrals
Hi Skyefall. good idea! I don't recall ever doing a derivative on the channels. I'll look into it at some point because there are some interesting derivatives out there