C++ FLTK desktop app source code | radiation_force_fltk.cpp |

libgcc_s_sjlj-1.dll from MINGW-W64 [mingw-w64_8.1.0_x86_64_win32_sjlj] | libgcc_s_sjlj-1.dll |

libstdc++-6.dll from MINGW-W64 [mingw-w64_8.1.0_x86_64_win32_sjlj] | libstdc++-6.dll |

C++ FLTK desktop app executable SIGNED BY xformulas.net | radiation_force_fltk.exe |

Formulas | radiation_force.txt |

ZIP with ALL the files | 20201115_101084_000036_radiation_force_fltk.zip |

f [Hz] | Frequency |

d [m] | Distance between photons (cubic grid) |

Lx [m] | Lx length (of prism base) |

Ly [m] | Ly length (of prism base) |

Lz [m] | Lz length (prism height) |

h [J*s] | Planck constant |

c [m/s] | Velocity of the photons (all the photons with the same velocity and with the direction of the z axis) |

E [J] | Photon energy |

p [kg*m/s] | Photon linear momentum |

Sb [m^2] | Surface area of the prism base |

Vp [m^3] | Volume of the prism |

Vd [m^3] | Volume for each photon |

N | Number of photons in the prism |

Et [J] | Total energy due to the photons in the prism |

pt [kg*m/s] | Total linear momentum due to the photons in the prism |

u [J/(m^3)] | Energy density |

pd [kg/s/(m^2)] | Linear momentum density |

t [s] | Time required for the photons in the prism to reach the base of the prism |

S [W/(m^2)] | Power density (when the reflection coefficient is equal to zero) |

P [N/(m^2)] | Radiation Pressure (when the reflection coefficient is equal to zero) |

F [N] | Radiation Force (when the reflection coefficient is equal to zero) |

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