Physical Science : Formulas

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3 | d = v*t | Where a=0 | d | Distance (meters) |

4 | vf = vi + a*t | v | Velocity (meters/second) | |

5 | vf² = vi² + 2*a*d | vf | Final Velocity (meters/second) | |

6 | d = vi*t+(1/2)*a*t² | vi | Initial Velocity (meters/second) | |

7 | t | Time (seconds) | ||

8 | F = m*a | m | Mass (kilograms) | |

9 | P = m*v | a | Acceleration (meters/second²) | |

10 | F*t=m*vf-m*vi | F | Force (newtons) | |

11 | P | Momentum (kilogram-meters/second) | ||

12 | W = F*d | W | Work (joules) | |

13 | PE=m*g*h | PE | Potential Energy (joules) | |

14 | KE = (1/2)*m*v² | KE | Kinetic Energy (joules) | |

15 | F = k*x | For Springs | g | Gravity (meters/second²) |

16 | PE = (1/2)*k*x² | h | Height (meters) | |

17 | t = 2*π*sqrt(m/k) | k | Spring Force Constant | |

18 | t = 2*π*sqrt(h/g) | For Pendulums | x | Distance from Center (meters) |

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21 | g = G*m₁*m₂ / r² | G is the Universal Gravitational Constant: 6.67*10^-11 m³ / (kg¹*s²) |