Recent content by Samson Ogaga Ojako

To me, it has to do with the uncertainty principle of quantum mechanics and the law of energy conservation cannot be violated, but only for very short durations. The Universe is able to produce mass and energy out of nowhere. Maybe this mass and energy disappear again very quickly as a result of...

You are right Sir

Oh ok. Let me check again then.

It is not really a homework or assignment. This is part of my research finding. I've gotten to a stage where I have 3 field equations with 3 variables #M#, #\psi# and #phi# all are functions of #(r,v)# \begin{equation} \frac{\partial {m}}{\partial v} = 4\pi{r^{2}}\phi_{v}...

Oh ok. You can take a second look at it again while I retype the question in LaTeX. Cheers

Yeah

I think he is unable to see the typing clearly because of the way the question is typed. So, I've decided to attach a copy of the typed question to him for a better understanding of the question. Thank you once again. Cheers

See the attached for details of how \psi, #M# and #r# are related. Best regard.

This looks so good enough, Sir. I must say, thank you very much. Let me look at how you were able to simplify the integration first. This is brilliant. I will get back to you just now. Cheers

The 'r' is a shell radius while the "v" is the time. The question is related to spacetime. Thank you for getting in touch

I am integrating the below: \begin{equation} \psi(r,v)=\int \left( \frac{\frac{\partial M(r,v)}{\partial r}}{r-2M(r,v)}\right)dr \end{equation} I am trying to write ψ in terms of M. Please, any assistance will be appreciated.