SendenHiEx (talk | contribs) No edit summary Tag: Visual edit |
No edit summary Tag: Visual edit |
||
| (4 intermediate revisions by 3 users not shown) | |||
| Line 1: | Line 1: | ||
| + | {{Infobox_object|image=Q-pid at a terminal.jpg|name=Q-pid|weight=N/A|manufacturer=[[Bridges]]}} |
||
| − | {{Stub}} |
||
| − | [[File:Q-pid at a terminal.jpg|thumb|right|Sam's Q-pid is used to establish strands in the Chiral Network]] |
||
| ⚫ | |||
| − | + | The '''Q-pid''' is a wearable computer in the form of necklace worn by Sam during his expedition across America. |
|
| + | |||
| + | == Overview == |
||
| ⚫ | The Q-pid was designed by [[Bridges]] researchers [[Mama]] and [[Lockne]] during the development of the [[Chiral Network]] as a device, which bears a series of tag-engraved physics equations, containing all of the necessary security and operations protocols to integrate a terminal location into the network. All established strand points are accessible to those bearing the required equations. |
||
| + | |||
| + | The Q-pid contains a high amount of [[chiralium]], which makes it float in the air, and because of this it is potentially lethal to anyone without natural chiralium resistance or to [[DOOMS]] sufferer like Sam. |
||
== List of equations == |
== List of equations == |
||
| Line 12: | Line 15: | ||
# <math> i \gamma^\mu \partial_\mu \psi(x) - m \psi(x) = 0 </math><br/><!-- |
# <math> i \gamma^\mu \partial_\mu \psi(x) - m \psi(x) = 0 </math><br/><!-- |
||
-->{{wp|Dirac equation}}, a part of quantum mechanics relating to Einstein's {{wp|special relativity}}. It predicted the existence of {{wp|antimatter}}. |
-->{{wp|Dirac equation}}, a part of quantum mechanics relating to Einstein's {{wp|special relativity}}. It predicted the existence of {{wp|antimatter}}. |
||
| − | # <math> \phi = (\frac{\phi_1}{\phi_2}) </math><br/><!-- |
+ | # <math> \phi = \left( \frac{\phi_1}{\phi_2} \right) </math><br/><!-- |
-->{{wp|Higgs mechanism|Higgs field}} equation, in a simplified form. |
-->{{wp|Higgs mechanism|Higgs field}} equation, in a simplified form. |
||
# <math> G_{\mu\nu} + \Lambda g_{\mu\nu} = \kappa T_{\mu\nu} </math><br /><!-- |
# <math> G_{\mu\nu} + \Lambda g_{\mu\nu} = \kappa T_{\mu\nu} </math><br /><!-- |
||
-->{{wp|Einstein field equations|Einstein field equation}}, which describes gravitation, and notably uses {{wp|Einstein's constant|Einstein's gravitational constant}} <math>\kappa</math>. |
-->{{wp|Einstein field equations|Einstein field equation}}, which describes gravitation, and notably uses {{wp|Einstein's constant|Einstein's gravitational constant}} <math>\kappa</math>. |
||
| − | #<math> |\Phi ^\star\rangle=\frac{1}{\sqrt{2}} (|V\rangle_{1}|H\rangle_{2}+|H\rangle_{1}|V\rangle_{2}) </math><!-- |
+ | #<math> |\Phi ^\star\rangle=\frac{1}{\sqrt{2}} (|V\rangle_{1}|H\rangle_{2}+|H\rangle_{1}|V\rangle_{2}) </math><br /><!-- |
-->{{wp|Quantum entanglement#Quantum mechanical framework|Quantum entanglement state}}. |
-->{{wp|Quantum entanglement#Quantum mechanical framework|Quantum entanglement state}}. |
||
# <math> r_g = \frac{2 G M}{c^2} </math><br /><!-- |
# <math> r_g = \frac{2 G M}{c^2} </math><br /><!-- |
||
| Line 22: | Line 25: | ||
After the above equations are processed, the {{wp|Schrödinger equation}} and an equation related to {{wp|Lagrangian (field theory)|Lagrangian density}}, along with others, are then additionally loaded and displayed. |
After the above equations are processed, the {{wp|Schrödinger equation}} and an equation related to {{wp|Lagrangian (field theory)|Lagrangian density}}, along with others, are then additionally loaded and displayed. |
||
| + | |||
| + | == Notes == |
||
| + | |||
| + | * The Q-pid bears a resemblance in both name and function to the Roman deity [https://en.wikipedia.org/wiki/Cupid Cupid]. While the Q-pid joins a terminal to the Chiral Network, Cupid joins two people. |
||
==Gallery== |
==Gallery== |
||
| Line 33: | Line 40: | ||
{{Navbox objects}} |
{{Navbox objects}} |
||
| + | [[ru:Кьюпид]] |
||
[[de:Q-PID]] |
[[de:Q-PID]] |
||
[[Category:Equipment]] |
[[Category:Equipment]] |
||
Latest revision as of 08:26, 28 November 2023
The Q-pid is a wearable computer in the form of necklace worn by Sam during his expedition across America.
Overview
The Q-pid was designed by Bridges researchers Mama and Lockne during the development of the Chiral Network as a device, which bears a series of tag-engraved physics equations, containing all of the necessary security and operations protocols to integrate a terminal location into the network. All established strand points are accessible to those bearing the required equations.
The Q-pid contains a high amount of chiralium, which makes it float in the air, and because of this it is potentially lethal to anyone without natural chiralium resistance or to DOOMS sufferer like Sam.
List of equations
Inscribed equations are processed in the following order, and include:
Reaction-diffusion equation, represented in the general form.
Dirac equation, a part of quantum mechanics relating to Einstein's special relativity. It predicted the existence of antimatter.
Higgs field equation, in a simplified form.
Einstein field equation, which describes gravitation, and notably uses Einstein's gravitational constant .
Quantum entanglement state.
Schwartzschild radius, the radius to which an object would have to be compressed (i.e., increasing its density without losing any of its mass) in order to turn it into a black hole.
After the above equations are processed, the Schrödinger equation and an equation related to Lagrangian density, along with others, are then additionally loaded and displayed.
Notes
- The Q-pid bears a resemblance in both name and function to the Roman deity Cupid. While the Q-pid joins a terminal to the Chiral Network, Cupid joins two people.
Gallery
