Maximum orbital occupancy of 2 f , 2 d x y , 2 p , 4 p , 5 d x y orbitals should be determined. . Concept introduction: Energy, size, shape, and orientation of atomic orbital are determined with help of some numbers. These numbers are called quantum numbers and are obtained from solution of Schrodinger equation of hydrogen atom by application of boundary conditions. Below mentioned are four quantum numbers. 1. Principal Quantum Number It is represented by n . This quantum number is related to size and energy of different atomic orbitals. With increase in value of n , size of orbital becomes larger and electron is present farther from atomic nucleus for longer time. 2. Angular Momentum Quantum Number It is represented by l . It describes angular momentum of electron in any specific atomic orbital. Shape of orbitals is determined by this quantum number. It can have integral values from 0 to ( n − 1 ) . Designation of orbitals on basis of different l values is as follows: Value of l 0 1 2 3 Orbital s p d f 3. Magnetic Quantum Number This quantum number is denoted by m l . It describes orientation of angular momentum associated with atomic orbital. Its value ranges from − l to + l . Total values of magnetic quantum number is governed by 2 l + 1 4. Spin Quantum Number This quantum number is represented by m s . It indicates direction of electron spin. It can either + 1 2 or − 1 2 .
Maximum orbital occupancy of 2 f , 2 d x y , 2 p , 4 p , 5 d x y orbitals should be determined. . Concept introduction: Energy, size, shape, and orientation of atomic orbital are determined with help of some numbers. These numbers are called quantum numbers and are obtained from solution of Schrodinger equation of hydrogen atom by application of boundary conditions. Below mentioned are four quantum numbers. 1. Principal Quantum Number It is represented by n . This quantum number is related to size and energy of different atomic orbitals. With increase in value of n , size of orbital becomes larger and electron is present farther from atomic nucleus for longer time. 2. Angular Momentum Quantum Number It is represented by l . It describes angular momentum of electron in any specific atomic orbital. Shape of orbitals is determined by this quantum number. It can have integral values from 0 to ( n − 1 ) . Designation of orbitals on basis of different l values is as follows: Value of l 0 1 2 3 Orbital s p d f 3. Magnetic Quantum Number This quantum number is denoted by m l . It describes orientation of angular momentum associated with atomic orbital. Its value ranges from − l to + l . Total values of magnetic quantum number is governed by 2 l + 1 4. Spin Quantum Number This quantum number is represented by m s . It indicates direction of electron spin. It can either + 1 2 or − 1 2 .
Solution Summary: The author explains that energy, size, shape, and orientation of atomic orbitals are determined with help of quantum numbers.
Interpretation:Maximum orbital occupancy of 2f , 2dxy , 2p , 4p , 5dxy orbitals should be determined.
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Concept introduction:Energy, size, shape, and orientation of atomic orbital are determined with help of some numbers. These numbers are called quantum numbers and are obtained from solution of Schrodinger equation of hydrogen atom by application of boundary conditions.
Below mentioned are four quantum numbers.
1. Principal Quantum Number
It is represented by n . This quantum number is related to size and energy of different atomic orbitals. With increase in value of n , size of orbital becomes larger and electron is present farther from atomic nucleus for longer time.
2. Angular Momentum Quantum Number
It is represented by l . It describes angular momentum of electron in any specific atomic orbital. Shape of orbitals is determined by this quantum number. It can have integral values from 0 to (n−1) .
Designation of orbitals on basis of different l values is as follows:
Value of l0123Orbitalspdf
3. Magnetic Quantum Number
This quantum number is denoted by ml . It describes orientation of angular momentum associated with atomic orbital. Its value ranges from −l to +l . Total values of magnetic quantum number is governed by 2l+1
4. Spin Quantum Number
This quantum number is represented by ms . It indicates direction of electron spin. It can either +12 or −12 .
2. Calculate the branching ratio of the reaction of the methyl peroxy radical with either HO, NO
298K) (note: rate constant can be found in the tropospheric chemistry ppt
CH,O,+NO-HCHO+HO, + NO,
CH₂O+HO, CH₂00H +0₂
when the concentration of hydroperoxyl radical is DH01-1.5 x 10 molecules and the
nitrogen oxide maxing ratio of 10 ppb
when the concentration of hydroperoxyl radicalis [H0] +1.5x10 molecules cm" and the
nitrogen oxide mixing ratio of 30 p
Under which condition do you expect more formaldehyde to be produced and why
Indicate the product of the reaction of benzene with 1-chloro-2,2-dimethylpropane in the presence of AlCl3.
In what position will N-(4-methylphenyl)acetamide be nitrated and what will the compound be called.
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