Single Choice

Anti- bonding molecular orbital is formed by:

Aaddition of wave functions of atomic orbitals
Bsubtraction of wave functions of atomic orbitals
Correct Answer
Cmultiplication of wave functions of atomic orbitals
Dfinding the arthimetic mean

Solution

Anti bonding molecular orbital is formed by substraction of wave functions of atomic orbitals.

SIMILAR QUESTIONS

Chemical Bonding

Which of the following overlapping results non-bonding molecular orbitals, if z-axis is considered as internuclear axis?

Chemical Bonding

The number of antibonding electrons present in $${O}_{2}$$ molecular ion is:

Chemical Bonding

The molecule exhibiting maximum number of non-bonding electron pairs around the central atom is :

Chemical Bonding

How many electrons are present in antibonding MO's in $$ CN^+ $$ ion?

Chemical Bonding

Which the following interaction form nonbonding molecular orbital when z-axis is the bonding axis ?

Chemical Bonding

How many nodal plane is/are present in $$\sigma ^{*}_{s\,-\,s}$$ anti- bonding molecular orbital ?

Chemical Bonding

Given the correct order of initials T or F for the following statements. Use T if the statement is true and F it is false. Statement-1 : $$\pi$$ bond is formed by sidewise overlapping of $$d_{x^2\, -\, y^2}$$ and $$p_y$$ orbital along x-axis. Statement-2: Zig-zag geometry would be suggested for the $$[I(CN)_2]^-$$

Chemical Bonding

How many nodal plane is/are present in $$\pi^{ \ast}_{p-p}$$ anti-bonding molecular orbital ?

Chemical Bonding

Find the sum of nodal plane of $$\delta_{d_{xy} - d_{xy}}$$ molecular orbital and $$\delta^{\ast}_{d_{xy} - d_{xy}}$$ anti-bonding molecular orbital.

Chemical Bonding

Find the number of non-bonding molecular orbital from the following if z is the internuclear axis : $$d_{z^2}\, +\, s,\, d_{x^2 - y^2}\, +\, s,\, p_z\, +\, d_{xz},\, s\, +\, d_{yz}$$

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