N has not a rotary counterpart at all because its moves are the axis of estimating that trait.
Diagonal analogue and rotary counterpart are slightly different things. For example, F and W are both these things, but diagonal analogue for F is D, for D is (naturally) A, for A is WX and so forth. It’s done by multiplying on square root from 2.
N is not counterpart for C, but Z is.
N has not a rotary counterpart at all because its moves are the axis of estimating that trait.
Diagonal analogue and rotary counterpart are slightly different things. For example, F and W are both these things, but diagonal analogue for F is D, for D is (naturally) A, for A is WX and so forth. It’s done by multiplying on square root from 2.