Temporo-spatial units

The temporo-spatial kinematic units are straightforward opposites of spacio-temporal units:

Dischronment has units of seconds, minutes, hours, days, or years.

Pace and lenticity have units of distance over duration: s/m or min/km or min/mile. Compare speed and velocity with their units of m/s, km/hr, or mi/hr.

Relentation has units of s/m² or min/km² or min/mile². Compare acceleration with its units of m/s² or km/hr².

Angular lenticity has units of seconds per radian, seconds per degree, seconds per revolution, etc. Compare angular velocity with its units of radians per second, degrees per second, revolutions per minute, etc.

Strophence is the rate of change of angular levamentum of a time body (or vehicle), σ = Iβ, which has units of seconds per radian², seconds per degree², seconds per revolution², etc.

 

For temporo-spatial dynamics units are needed that correspond to mass and force etc.

Vass is the nonresistance of a time body (or vehicle) to a change in its state of motion when a net release is applied; it is the inverse of mass. Units of kg-1.

Levamentum is the vass times the lenticity, so it has units of s m–1 kg–1, which is the inverse of momentum.

Release is the space rate of change of the levamentum, so it has units of s m–2 kg–1. Compare the unit of force, the Newton, N, which is the force needed to accelerate one kilogram of mass at the rate of one m/s² in the direction of the applied force. Analogously, we could define an Oldton, O, as the release needed to relentate one kg–1 of vass at the rate of one s/m² in the direction of the applied release.

Effort is a constant release, Γ, that moves a time body (or vehicle) the dischronment t: V = Γt. The joule, J, is defined as the work expended by a force of one newton through a displacement of one metre. Analogously, we could define the Quoule, Q, (quasi-joule) as the effort expended by an release of one oldton through a dischronment of one second.

Power is the ratio of work per unit of duration, with unit of one joule per second. Placidity is the ratio of repose per unit of placeline, with unit of one quoule per metre.

The gravitational constant, G, equals 6.674 × 10−11 m3⋅s−2⋅kg−1. The levitational constant, H, equals 2.233 × 1017 kg⋅s⋅m−3/2.