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Formulas

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d = v*tWhere a=0dDistance (meters)

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vf = vi + a*tvVelocity (meters/second)

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vf² = vi² + 2*a*dvfFinal Velocity (meters/second)

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d = vi*t+(1/2)*a*t²viInitial Velocity (meters/second)

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tTime (seconds)

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F = m*amMass (kilograms)

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P = m*va Acceleration (meters/second²)

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F*t=m*vf-m*viFForce (newtons)

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PMomentum (kilogram-meters/second)

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W = F*dWWork (joules)

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PE=m*g*hPEPotential Energy (joules)

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KE = (1/2)*m*v²KEKinetic Energy (joules)

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F = k*xFor SpringsgGravity (meters/second²)

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PE = (1/2)*k*x²hHeight (meters)

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t = 2*π*sqrt(m/k)kSpring Force Constant

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t = 2*π*sqrt(h/g)For PendulumsxDistance from Center (meters)

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g = G*m₁*m₂ / r²G is the Universal Gravitational Constant: 6.67*10^-11 m³ / (kg¹*s²)