The complex numbers are all different though
So I don't think this is correct. Not that I can do better or anything. Keep up the good work!
Using numerical integration techniques,
\(\int _{-2}^2\left(x^3\cos \left(\frac{x}{2}\right)+\frac{1}{2}\right)\sqrt{4-x^2}dx\) would be \(\pi\)
The factors of 1024 would be 1, 2, 4, 8, 16, 32, 62, 128, 256, 512, and 1024 itself.
These numbers added up would give us 2047.
Thus, the answer to this question is 2047.
Thank you, I have a better understanding of what this problem meant. I first tried plugging in some values and then graphing it. I figured there was an easier way!
I actually was working on this problem while you were, I also figured it out!!!
I actually figured it out a while after I posted this question haha. My process was the exact same as yours, though
tysm, I understand how to do this problem now after reading the solution!!!
actually, the answers are 1, -1, and -3. I solved it!!! I did use the expanding advice
never mind, I finally got the answer!!! The only possible value of k is 1!!!
you deserve it!!!