I've done 3 of my 5 problems, which took me 2 days and over 30-50 pieces of scrap paper. I'm serious, I didn't even eat dinner today because I spent straight hours just staring at questions, thinking I was coming close to solutions, then only to find out I've gotten no where. So in the end, I...
I really really hate proofs!
I've done 3 of my 5 problems, which took me 2 days and over 30-50 pieces of scrap paper. I'm serious, I didn't even eat dinner today because I spent straight hours just staring at questions, thinking I was coming close to solutions, then only to find out I've...
I have to solve the integral:
\int^1_{-1} e^{-| |x| - \frac{1}{4} |} dx
but I have no idea what to do with the absolute value signs. Can someone help me? :confused:
Ah, Thank you. I just noticed, when the x is an exponent, it increases the term much faster than when x is a base. So I can see how x^y / e^x will = 0 for all y.
Thank you to all once again.
Ahh...I see what you're saying. Thank you.
I don't mean to question your method, I know I might be becoming a nuisance by now, but can you tell me why \lim_{x \rightarrow \infty} x^ye^{-x} = 0 \ \forall y \in \mathbb{R}? I mean, doesn't \lim_{x \rightarrow \infty} x^y = \infty?
Hmm...maybe I should have mentioned this earlier, but I am not trying to solve the integral. I have to get it in a specific form so I can use Gaussian Quadrature. In order to do that I have to integrate by parts.
The answer is supposed to be: \frac{1}{z + 1} \int_0^\infty x^{z + 1}...
But the way to calculate the gamma function is to do that actual integral...
anywayz, do you see my problem though? when my v becomes v = \frac{1}{z + 1} x^{z + 1}, my x^{z + 1} term gets moved to the top and turns into infinity.
I'm having a tough time trying to do integration by parts with one of my limits being infinity. My Integral looks like:
\int_0^\infty x^z e^{-x} dx with z = \frac{-1}{\pi}
Now if I let u = e^{-x} and dv = x^z dx,
I will have: du = -e^{-x} dx and v = \frac{1}{z + 1} x^{z + 1}
and...
Hi. I have a problem with a question. Basically, I have an integral that goes from x=0 to x=1, and I'm supposed to make a change of variables like this:
Let x = 1 - y^2.
The problem I'm having is trying to find the limits of integration after the change of variables. Since y = +/-...
hmm...I didn't plug in anything, but my lecture notes says plug in back to original equation so I think you're on to something. If you're talking about the step where I went from
y = (xp)/3, I moved the 3 to the LHS so it will be
3y = xp
then I differentiated both sides
3y' = xp' + p...
Help! I'm just starting this class and I have no idea what's going on. What I don't understand is, what answer are you supposed to give? My question says "Find the general solution and also the singular solution, if it exists". What the hell does that mean?
Can someone tell me if this...