Science Equations - G to I    Gg Hh || Ii     Gauss' theorem   ∫ S C . n ⅆ S = ∫ V ∇⋅ C ⅆ V Gravitational potential energy   V = m ⁢ g ⁢ h V = G ⁢ M ⁢ m r Graham's Law   c 2 = ( 3 p ρ ) 1 2             Hh Gg || Ii     Half-Life   T 1 / 2 = ln ⁢   2 λ Hall Voltage   V = BI n ⁢ e ⁢ a Heisenberg's uncertainty principle   Δ ⁢ x ⁢ Δ ⁢ p ≥ h Helmert's Formula   g = 9.80616 - 0.025928 ⁢ cos ⁢ 2 ⁢ λ +                                             0.000069 ⁢ cos 2 2 ⁢ λ - 0.000003086 H             Ii Gg || Hh     Ideal Gas Equation   pV = nRT Impedance (series RCL)   Z = ( R 2 + ( X L - X C ) 2 ) 1 2 Impedance of an LCR circuit   Z = ( R 2 + X 2 ) 1 / 2 Impulse   J = ∫ t 1 t 2 F ⅆ t = F ( t 2 - t 1 ) for ⁢   constant ⁢   F J = ∫ v 1 v 2 m ⅆ v = F ( v 2 - v 1 ) ⁢ always Impulse and Momentum   Ft = mv - mu Induced emf   ε = - L Δ ⁢ I Δ ⁢ t     ε s = - M Δ I p Δ ⁢ t Induced emf in coil   ε = BAN ⁢ ω ⁢ sin ⁢ θ Induced emf - Neumann's Law   ε = - N Δ ⁢ Φ Δ ⁢ t Inductive Reactance   X L = ω ⁢ L Intensity of Wave   I = a 2 Internal Resistance   I = ε R + r Intersecting Chords   ab = cd Intersecting Secants   se = s ′ e ′ Intersecting Tangents and Secants   s t = t e t 2 = se Isothermal Change   PV = k   Gg | Hh | Ii To the top A to C | D to F | G to I | J to M | N to Q | R to T | U to Z [ H O M E ] [ S C I E N C E ] [ M A T H S ] [ A S T R O N O M Y ] Download | Contact | About

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