Recent content by Javier0289

I don't think is planar, the boron has more character $$sp^3$$... nevertheless you can check it out with the lewis structure in the internet and do an analysis (bond order, paired and unpaired electrons, etc)

If your doubt is only the existence, there's sodium perborate. Check your notes and the formula because there isn't a sp Boron in the lewis structure of such compound

Hi, I put the other results below

Have you tried to draw the lewis structure??

Hi! from a) all the equations of state are homogeneous of zero order $$ {1 \over T} = R({V \over N} + {N^3 \over U^2V})$$ $$ {P \over T} = R({U \over N} + {N^3 \over UV^2})$$ $$ {μ \over T} = R({UV \over N^2} + {3N^2 \over UV})$$ b) the temperature is always positive c) the mechanical equation...

I tried this... but I'm not sure if I'm doing it right or maybe there's a simpler way. Thanks for your time or help :) The fundamental relation is: $${S \over R} = {UV \over N} - {N^3 \over UV}$$ but I used $$s=S/N, u=U/N, v=V/N$$ to obtain $${s \over R} = uv - {1 \over uv}$$ then I did...

Thanks :D

Hi everyone! I'm Javier. Currently I am studying a master program in physical chemistry at CINVESTAV. I'll do my best to support and upload documents :)