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Test: Molecular Orbital Theory - Chemistry MCQ


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10 Questions MCQ Test Inorganic Chemistry - Test: Molecular Orbital Theory

Test: Molecular Orbital Theory for Chemistry 2024 is part of Inorganic Chemistry preparation. The Test: Molecular Orbital Theory questions and answers have been prepared according to the Chemistry exam syllabus.The Test: Molecular Orbital Theory MCQs are made for Chemistry 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Molecular Orbital Theory below.
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Test: Molecular Orbital Theory - Question 1

Which of the following molecule is not true about paramagnetic molecules?

Detailed Solution for Test: Molecular Orbital Theory - Question 1

Paramagnetic molecules are attracted by the magnetic field and orbitals are singly occupied. O2 is an example. Whereas diamagnetic molecules are repelled by the magnetic field, so the option is wrong.

Test: Molecular Orbital Theory - Question 2

What’s the bond order of Oxygen?

Detailed Solution for Test: Molecular Orbital Theory - Question 2

The formula of bond order is given by 1⁄2(NB – NA) When NB is bonding orbitals and NA is the number of anti-bonding orbitals. In Oxygen, bond order = 1/2(10-6) = 2. When it’s zero the molecule cannot be formed.

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Test: Molecular Orbital Theory - Question 3

Which of the bonding orbital has greater energy comparatively?

Detailed Solution for Test: Molecular Orbital Theory - Question 3

An electron that enters bonding orbitals stabilizes the molecule as it’ in between two nuclei. Whereas when an electron is entered into the anti-bonding orbital, it needs to pull an electron away from the nucleus.

Test: Molecular Orbital Theory - Question 4

Which of the following is a condition for the combination of atomic orbitals?

Detailed Solution for Test: Molecular Orbital Theory - Question 4

Combining atomic orbitals must have symmetry as per molecular axis is true. The corrected statements are combining atomic orbitals must have equal energy, must overlap to the maximum extent and Z-axis should be taken as the molecular axis.

Test: Molecular Orbital Theory - Question 5

Stability increases, as the energy ___________

Detailed Solution for Test: Molecular Orbital Theory - Question 5

As the stability increases, the energy of that substance decreases. The higher the energy, the less stable the molecule. So stability is inversely proportional to the energy. This can be seen in any part of the universe.

Test: Molecular Orbital Theory - Question 6

Combination of two atomic orbitals results in the formation of two molecular orbitals namely _________

Detailed Solution for Test: Molecular Orbital Theory - Question 6

F. Hund and R.F. Mullikan proposed Molecular orbital theory in the year 1932. According to this theory, the combination of two atomic orbitals results in the formation of two molecular orbitals namely one bonding and one anti-bonding orbital.

Test: Molecular Orbital Theory - Question 7

What do you think is the relationship between bond order and bond length?

Detailed Solution for Test: Molecular Orbital Theory - Question 7

The bond length has defined the distance between two atoms in a molecule. The bond order depends on the bond length between two atoms in a molecule. As the bond length increases the bond decreases and vice-versa.

Test: Molecular Orbital Theory - Question 8

Take NA as the number of Anti-bonding molecular orbitals and NB as the number of Bonding molecular orbitals. The molecule is stable when NA ____________ NB.

Detailed Solution for Test: Molecular Orbital Theory - Question 8

When a molecule consists both bonding molecular orbitals and anti-bonding molecular orbitals, the higher the number of bonding orbitals, the more the bonding influence and the more stable the molecule will be and vice-versa.

Test: Molecular Orbital Theory - Question 9

Sigma molecular orbitals are not symmetrical around the bonding axis.

Detailed Solution for Test: Molecular Orbital Theory - Question 9

According to the nomenclature, sigma molecular orbitals are symmetrical around the bonding axis and the pi molecular orbitals are not symmetrical around the bonding axis. So the given statement is false.

Test: Molecular Orbital Theory - Question 10

ψ MO = ψA + ψB.

Detailed Solution for Test: Molecular Orbital Theory - Question 10

The linear combinations like additions and subtractions of wave functions of individual atomic orbitals indicate the formation of molecules mathematically, as given i.e. ψMO = ψA + ψB. Where ψ represents the wavefunctions of atomic orbitals.

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