6. The radial component of the 3s orbital wave function is defined by the equation: 1 Z R(r) o 13" (6–20+ = - 20 +0%)e%%

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6. The radial component of the 3s orbital wave function is defined by the equation: 1 Z R(r) o 13" (6–20+ = - 20 +0%)e%%

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6 The Radial Component Of The 3s Orbital Wave Function Is Defined By The Equation 1 Z R R O 13 6 20 20 0 E 1
6 The Radial Component Of The 3s Orbital Wave Function Is Defined By The Equation 1 Z R R O 13 6 20 20 0 E 1 (63.25 KiB) Viewed 92 times
6. The radial component of the 3s orbital wave function is defined by the equation: 1 Z R(r) o 13" (6–20+ = - 20 +0%)e%% e Where 2Zr 411&għa p= ; ao = -= 52.9177pm = 5.29 x 10-11 m ao = mee? For the Li2+ ion (Z = 3), calculate the values of r (in picometers) where R(r) = 0; these would be the positions where the quadratic (6–2+8°/) = 0 PP The mass of an electron me = 9.11 x 10-31 kg; the change of an electron e == 1.60 x 10-19 Coulombs; the permittivity of free space constant £o = 8.85 x 10-12 Fm-?.
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