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Solution of the Schrödinger wave equation for the hydrogen atom results in a set of functions (orbitals) that describe the behavior of the electron. Each function is characterized by three quantum numbers: n, I, and m,. If the value of n=1 The quantum number I can have values from to The total number of orbitals possible at the n = 1 energy level is If the value of I=0 The quantum number m, can have values from to The total number of orbitals possible at the /= 0 sublevel is
Solution of the Schrödinger wave equation for the hydrogen atom results in a set of functions (orbitals) that describe the behavior of the electron. Each function is characterized by three quantum numbers: n, I, and m,. If the value of n = 3 The quantum number / can have values from to The total number of orbitals possible at the n = 3 energy level is If the value of 1-1 The quantum number m, can have values from to The total number of orbitals possible at the /= 1 sublevel is
Ervin Schrödinger Solution of the Schrödinger wave equation for the hydrogen atom results in a set of functions (orbitals) that describe the behavior of the electron. Each function is characterized by 3 quantum numbers: n, I, and m, n is known as the I is known as the m, is known as the quantum number. quantum number. quantum number. n specifies / specifies m, specifies A.The subshell-orbital shape. B.The orbital orientation. C.The energy and average distance from the nucleus.