N2(g)+O2(g) <==> 2NO(g) Kc= .055
Using the ICE Table:Kc =( [.01-2x]^2)/([x]*[x]) .055 = ( [.01-2x]^2)/([x]*[x]) Solve for x wherein x = .00445
In conclusion, the equilibrium concentrations are as follows:[N2] = .00445M[O2] = .00445M[NO] = .0011M.
On the periodic table, the size of an element's ionic radius follows a predictable trend. The ionic radius increases as you shift down a column or community. This is because every row introduces a new shell of electrons. The ionic radius decreases over a row or time, going from left to right.
The answers D man have fun
The maximum number of D orbitals in a principal energy level is 5.