a)
Interpretation : The electron transitions emit energy or require the absorption of energy to be indicated.
Concept Introduction: The energies or energy levels that an electron can have are determined by the Schrodinger equation's solution. The atomic orbital, which is derived from the Schrodinger equation for each energy level, expresses the probability that an electron will be found at a particular place around the nucleus.
a)
Answer to Problem 69A
The electron transition for
Explanation of Solution
Each energy sublevel has an associated orbital or orbitals with a variety of forms. In which an electron is most likely to be found is described by its orbitals.
When atoms absorb energy, their electrons move to higher energy levels. These electrons lose energy by emitting light when they return to lower energy levels.
The order of orbital filling of the atoms is given as:
Where, s orbitals accommodate 2 electrons, p orbitals 6 electrons, d orbitals 10 electrons, and f orbitals 14 electrons.
In the given electronic transition
Since the transition is from a higher energy level to a lower energy level.
b)
Interpretation : The electron transitions emit energy or require the absorption of energy to be indicated.
Concept Introduction: The energies or energy levels that an electron can have are determined by the Schrodinger equation's solution. The atomic orbital, which is derived from the Schrodinger equation for each energy level, expresses the probability that an electron will be found at a particular place around the nucleus.
b)
Answer to Problem 69A
The electron transition for
Explanation of Solution
Each energy sublevel has an associated orbital or orbitals with a variety of forms. In which an electron is most likely to be found is described by its orbitals.
When atoms absorb energy, their electrons move to higher energy levels. These electrons lose energy by emitting light when they return to lower energy levels.
The order of orbital filling of the atoms is given as
Where, s orbitals accommodate 2 electrons, p orbitals 6 electrons, d orbitals 10 electrons, and f orbitals 14 electrons.
In the given electronic transition
Since the transition is from a lower energy level to a higher energy level.
c)
Interpretation : The electron transitions emit energy or require the absorption of energy to be indicated.
Concept Introduction: The energies or energy levels that an electron can have are determined by the Schrodinger equation's solution. The atomic orbital, which is derived from the Schrodinger equation for each energy level, expresses the probability that an electron will be found at a particular place around the nucleus.
c)
Answer to Problem 69A
The electron transition for
Explanation of Solution
Each energy sublevel has an associated orbital or orbitals with a variety of forms. In which an electron is most likely to be found is described by its orbitals.
When atoms absorb energy, their electrons move to higher energy levels. These electrons lose energy by emitting light when they return to lower energy levels.
The order of orbital filling of the atoms is given as
Where, s orbitals accommodate 2 electrons, p orbitals 6 electrons, d orbitals 10 electrons, and f orbitals 14 electrons.
In the given electronic transition
Since the transition is from a lower energy level to a higher energy level.
d)
Interpretation : The electron transitions emit energy or require the absorption of energy to be indicated.
Concept Introduction: The energies or energy levels that an electron can have are determined by the Schrodinger equation's solution. The atomic orbital, which is derived from the Schrodinger equation for each energy level, expresses the probability that an electron will be found at a particular place around the nucleus.
d)
Answer to Problem 69A
The electron transition for
Explanation of Solution
Each energy sublevel has an associated orbital or orbitals with a variety of forms. In which an electron is most likely to be found is described by its orbitals.
When atoms absorb energy, their electrons move to higher energy levels. These electrons lose energy by emitting light when they return to lower energy levels.
The order of orbital filling of the atoms is given as
Where, s orbitals accommodate 2 electrons, p orbitals 6 electrons, d orbitals 10 electrons, and f orbitals 14 electrons.
In the given electronic transition
Since the transition is from a lower energy level to a higher energy level.
Chapter 5 Solutions
Chemistry 2012 Student Edition (hard Cover) Grade 11
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