Plasmoid Tech
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Plasmoid Tech
Math, Science and Physics
| Equation | Description |
|---|---|
| <math>\(P = \fracTemplate:T \cdot VTemplate:N \cdot R\)<\math> | Ideal gas law where \(P\) is pressure, \(T\) is temperature, \(V\) is volume, \(n\) is the number of moles, and \(R\) is the ideal gas constant. |
| \(F = q(E + v \times B)\) | Lorentz force equation where \(F\) is the force, \(q\) is the charge, \(E\) is the electric field, \(v\) is the velocity, and \(B\) is the magnetic field. |
| \(m = \fracTemplate:M 0{{\sqrt{1 - \fracTemplate:V^2Template:C^2}}}\) | Relativistic mass equation where \(m\) is the relativistic mass, \(m_0\) is the rest mass, \(v\) is the velocity, and \(c\) is the speed of light. |
| \(E = mc^2\) | Energy-mass equivalence equation from Einstein's theory of relativity where \(E\) is energy, \(m\) is mass, and \(c\) is the speed of light. |
| \(v_f = v_i + at\) | Kinematic equation for final velocity where \(v_f\) is the final velocity, \(v_i\) is the initial velocity, \(a\) is acceleration, and \(t\) is time. |
| \(I = \frac{V}{R}\) | Ohm's law where \(I\) is current, \(V\) is voltage, and \(R\) is resistance. |
| \(F_{\text{buoyant}} = \rho \cdot g \cdot V\) | Buoyant force equation where \(F_{\text{buoyant}}\) is the buoyant force, \(\rho\) is the density of the fluid, \(g\) is the acceleration due to gravity, and \(V\) is the volume of the displaced fluid. |
| \(P_{\text{mech}} = P_{\text{hydro}} + P_{\text{static}} + P_{\text{dynamic}}\) | Mechanical power equation where \(P_{\text{mech}}\) is the mechanical power, \(P_{\text{hydro}}\) is the hydrostatic pressure, \(P_{\text{static}}\) is the static pressure, and \(P_{\text{dynamic}}\) is the dynamic pressure. |
