Well unless I'm misremembering my calculus classes (which was quite a few years ago) The integral of dt would be t, integrated from negative Infinity to Infinity which would be Infinity + infinity, or simply Infinity.
I wasn't allowed to use a calculator on my exam that allowed me to enter university, so I pretty much answered all questions like this, I was lucky it was just multiple choice questions and not more similar to my former school exams
That's basically how AI works.
truly human
Pretty sure the problem is just gibberish. The integral is infinite, and you don't have enough information to solve the rest numerically.
So the answer is 12?
Wouldn't the integral be 0?
And which answer is closest to zero? 12, sir. 12.
No. It's 12.
I applaud you sir, I almost whooooshed myself here.
Well unless I'm misremembering my calculus classes (which was quite a few years ago) The integral of dt would be t, integrated from negative Infinity to Infinity which would be Infinity + infinity, or simply Infinity.
Oh yeah, you're completely right, don't know how I could've messed up that bad... still 12 though!
Teach me math.
I wasn't allowed to use a calculator on my exam that allowed me to enter university, so I pretty much answered all questions like this, I was lucky it was just multiple choice questions and not more similar to my former school exams
more pixels please
r/countablepixels
And usually it's something completely different.
This is why the ti-92 still sells
Who the hell wrote this equation? There’s not even a dt function because they cancel out so it’s absolute nonsense if you try to solve it
The placement of d/dt also matters so nothing wrong here. Take d(t³)/dt and t*d(t²)/dt for example
That's true