>>30217029Mori, have mercy on my soul for what I am about to do.
In-depth Chuubanite applied physics, textbook-style, with examples.
Refer to
>>30224810 for visuals.
Chuubanite concentration (Cc): IE one Maxhead/cm^3 (1 Mh/cm^3)
1 Rom = 1 Pa
A quantity of Maxhead is the Chuubanite (Chu) IE 1 Mh of Chuubanite
One Maxhead at an activation of one Rom generates one Joule per second
1 Mh * 1 Ro * 1 s = 1 J
Chuubanite has a certain level of baseline Activation of a low Rom value. Rom can be increased through the creation of glyphs, by stressing the chuubanite, or by putting it in contact with an activator substance.
Activation is calculated thus:
Ac = Ac_base (in Rom)
Ac = Ac_glyph (in Rom)
Ac = Ac_activator_factor (unitless)
Ac = S (in Rom)
Note a tension stress results in negative activation while a compressive stress results in positive activation.
Base, Glyph and Stress factors are additive, the Activator factor is multiplicative with regard to the others
The front of a stress wave traveling through chuubanite generates a corresponding wave in the Vitium field. The two waves travel together at the speed of sound in the material.
When the front of the stress wave touches chuubanite, the amplitude of the Vitium Field Excitation increases.
The period after the chuubanite is stressed where it contributes to the Vitium Field Excitation is the Vitubium Detente (Vd). (Frames 1-5)
The Vitubium Field Excitation is in units of Amis (1 Ami = 1 Mh * 1 Pa)
VFE = Chu * delP * Ac_activator_factor
Where delP is the change in stress (as in a square step impulse)
This assumes the Chuubanite is stressed for the full duration of the Vd.
If the impulse duration is shorter than the Vd, the VFE can be approximated with the following.
VFE = Chu * delP * T / Vd
With Chu as the quantity of Maxhead in the material traversed by the stress wave. A Compressive Stress wave front increases the VFE, while a tensile one decreases the VFE.
When the VFE moves into a medium with a different Chuubanite concentration, some VFE is converted to Magical Energy, while some continues in the new medium. (Frames 6-8)
The proportion of VFE converted to Magical Energy follows this equation:
Ratio = (Cc - Cc_out) / (Cc + Cc_out)
Conversely, VFE entering a region of higher Cc will result in Magical Energy being drawn from the Chuubanite and increasing the amplitude of the VFE.
The amount of Magical Energy transferred to the chuubanite by the VFE is calculated thus:
E_mag = Ratio * VFE * Vd
This Magical Energy is instantly converted to Strain Energy, Heat, and Light as the VFE crosses into the new medium. (Frames 7-8)
Once the Strain Energy is stored in the Chuubanite, it will slowly return to its configuration at rest using energy from its base activation. This return to rest configuration can be accelerated through further application of Activation. (Frames 8-12)
