When you apply the hemispherical coordinate systems, then relativity becomes:

 - conversion for radial changes that change the dimensions of inclination/longitude and latitude pro-rata (covariant).

 - translation because the force distance along the latitude arc-distance overstates, so forces need to get a curvature calculation.

General Relativity (GR), in (X1, X2, X3, X0) which great for spheres, needs the benefits of the proper frame-of-reference.

All electrons get attracted to the common nucleus axis (green) axial inward.  The electrons repel each other (blue) which aggregates (black) to directly outward axial.  The result is a clean Schrodinger Equation, but only if done in the Bose "cylinder surface" frame-of-reference.

The approach of e-exponent gets limited to just interactive, inverse physics.  That being the velocity at (x)^(1/2) and acceleration at (x)^(-1/2).  Additional tools get other physics events.  That is,

 - (3/2)^(3/2) as transfers from 2D to 3D

 - (e)^x as interactive, inverse

 - new base for other physics events based upon π.

There is a direct relationship for both Gravity and Boltzmann's constant to Planck's Constant (h) when properly scaled.  Gravity is the cube root(h), which is 'extra 1/r' versus the radial electrostatic (rES) at Bohr-H strength value, Planck's Constant (h).  That is fields rES at 1/d^3 versus rXS at 1/d^4 gets an extra cube root, which also gets the volume for the electron shell (Hydrogen) at Bohr-H (a0).

While math correct, the teaching here is that event-sets are 3-positions, 2 particles locked throughout the behavior for the equation:

 - mesons are two particles, one at 1d, and 2nd at 2d, to get the 3 x 3 behavior, and limited effective range.

 - basic quarks are 2 particles, but 2nd here is the face diagonal (root(2).

 - strange quarks are 2 particles, but but at the cube diagonal (root(3)).

This provides a 3D engineering physical, physics model to refine the U(1), SU(2), SU(3), and the rest. 

 - U(1) is two hemispheres, magnetism, by a towards-the-axis of other particle attraction.  As used, this is the 50/50 whether towards one pole or towards the other pole.

 - SU(2) is the 'extra 1/r' radial xtrastatic repulsion versus the toward-the-axis axial xtrastatic attraction.  The gets the magnetism loops - big around the equator and all feeding the poles.

 - SU(3) is 3 positions of P1 x 3 positions of P2 = 9.

The understanding here of Planck's constant at Bohr-H radius (a0) then leads to understanding the segments in Planck's Equation to separate the inverse relationship of a) energy; or b) volume/pressure.  The inverse drops dramatically to zero at the effective distance ratio of (8/7a0) which accounts for the Pauli-pair (8/7).  That is the inward pressure generating the photon counter reactions does not occur once the two molecules merge.  That is a different path with no photon!

Planck's Equation and h flow from 3D engineering.