An antibonding molecular orbital ______.
a)results from the addition of the wave functions
b)is lower in energy than a bonding molecular orbitals
c) results from destructive interference between atomic orbitals
d) has increased electron density in the internuclear region
Option C) is the correct answer.
The molecular orbital formed by the additve or the addition effect of the atomic orbitals is called bonding molecular orbital and the molecular orbital formed by the destructive or subtractive effect of the atomic orbital is called antibonding molecular orbital.
An antibonding molecular orbital ______. a)results from the addition of the wave functions b)is lower in...
According to molecular orbital theory, what is an antibonding orbital? Check all that apply. An antibonding orbital is formed when two atomic orbitals destructively interfere with one another An antibonding orbital is usually higher in energy than the two separated atoms and has a node in the internuclear region. An antibonding orbital is usually higher in energy than the two separated atoms and has no nodes in the internuclear region. An antibonding orbital is usually lower in energy than the...
Question 4 Determine if each of the statements is True or False about bonding molecular orbitals and antibonding molecular orbitals. 1) Every electron that enters a bonding molecular orbital has lower energy and stabilizes the molecule. Select 2) Bonding molecular orbitals are formed by the overlap of two out-of-phase atomic orbitals. [Select] 3) An antibonding molecular orbital has a lower electron density in the internuclear region than that of the atomic orbitals. [ Select] 4) Two atomic orbitals are combined...
Sketch the bonding and antibonding molecular orbitals in each case. (a) The bonding MO that results from the linear combinations of two 1s orbitals Indicate the region where interference occurs and state the kind of interference (constructive or destructive). (b) The antibonding Mo that results from the linear combinations of two 1s orbitals Indicate the region where interference occurs and state the kind of interference (constructive or destructive).
1.According to molecular orbital theory, the destructive interference of two atomic orbitals results in a(n) 2.According to molecular orbital theory, the constructive interference of two atomic orbitals results in a(n)
Which of the following statements are true and which are false? A sigma molecular orbital may not have a single lobe of electron density. be bonding or antibonding. result from overlap of two sp2 orbitals. have delocalized electrons in conjugated compounds. not result from two atomic p orbitals.
2. According to molecular orbital theory, how many molecular orbitals of benzene are bonding. antibonding and nonbonding? A. Two bonding, two antibonding and two nonbonding B. Three bonding, two antibonding and one nonbonding C. Three bonding, three antibonding and cro nonbonding D. Two bonding, zero antibonding and four nonbonding E Six bonding, zero antibonding and zero nonbonding 3. Which one of the following is aromatic? A. II B. III C. IV D. I E. None
Which of the following statements are true and which are false? A sigma molecular orbital may True False be bonding or antibonding. True False not result from two atomic p orbitals. True False result from an atomic p orbital and a sp2 orbital. True False not have a single lobe of electron density. True False have delocalized electrons in conjugated compounds.
how many electrons are in antibonding molecular
orbitals based on the molecular orbital diagram for o2 given that
each o electron configuration is (2s22p4)? do not include electrons
from the 1s shell in your count.
ewton Alta SP20-CHEM 111 - GENERAL CHEMISTRY I + Homework 5.2 Understand molecular orbital energy diagrams Question How many electrons are in antibonding molecular orbitals based on the molecular orbital diagram for O, given that each o electron configuration is (2s 2p')? Do not include...
Examine the molecular orbital diagram for butadiene, below. what
are the molecular orbitals
1. The molecular orbital energy diagram for the ground (lowest energy) state of (CaHe) can be represented as below. The solid lines represent MO's, the dotted line represents the division between bonding and antibonding MO's, and arrows represent electrons of the TT-system (3). Energy On the blank diagrams below place the arrows (representing electrons) to appropriate ly show a. the first electronically excited state of butadiene (same...
Interaction of the following two atomic orbitals results in what kind of molecular orbital, in the orientation shown? + s bonding molecular orbital Op bonding molecular orbital Op* antibonding molecular orbital Which of the following is the correct structure for the compound (S)-3-methylheptane. B. D. A A OB Oc OD What is the degree of substitution of the following alkene? Monosubstituted Disubstituted Trisubstituted Tetrasubstituted Which of the following is a gauche conformer? Н. н Н Hн H Н. Н FH...