(a)
Interpretation: Number of electrons possible with
Concept introduction:There are four quantum numbers that serve basis of quantum aspects related to size, position, orientation, and spin associated with an electron.
Principal quantum number depicted as
Azimuthal quantum number describes shape and determines orbital
Magnetic quantum number determines orientation of certain orbital. Its values range from
Spin quantum numbers help to predict intrinsic spin associated with electron. It can take only two values
(a)
Explanation of Solution
For
(b)
Interpretation: Number of electrons possible for
Concept introduction:There are four quantum numbers that serve basis of quantum aspects related to size, position, orientation, and spin associated with an electron.
Principal quantum number depicted as
Azimuthal quantum number describes shape and determines orbital angular momentum associated with a particular orbital. It is characterized by values
Magnetic quantum number determines orientation of certain orbital. Its values range from
Spin quantum numbers help to predict intrinsic spin associated with electron. It can take only two values
(b)
Explanation of Solution
For
(c)
Interpretation:Number of electrons possible for
Concept introduction:There are four quantum numbers that serve basis of quantum aspects related to size, position, orientation, and spin associated with an electron.
Principal quantum number depicted as
Azimuthal quantum number describes shape and determines orbital angular momentum associated with a particular orbital. It is characterized by values
Magnetic quantum number determines orientation of certain orbital. Its values range from
Spin quantum numbers help to predict intrinsic spin associated with electron. It can take only two values
(c)
Explanation of Solution
For
(d)
Interpretation:Number of electrons possible for
Concept introduction:There are four quantum numbers that serve basis of quantum aspects related to size, position, orientation, and spin associated with an electron.
Principal quantum number depicted as
Azimuthal quantum number describes shape and determines orbital angular momentum associated with a particular orbital. It is characterized by values
Magnetic quantum number determines orientation of certain orbital. Its values range from
Spin quantum numbers help to predict intrinsic spin associated with electron. It can take only two values
(d)
Explanation of Solution
For
(e)
Interpretation:Number of electrons possible for
Concept introduction:There are four quantum numbers that serve basis of quantum aspects related to size, position, orientation, and spin associated with an electron.
Principal quantum number depicted as
Azimuthal quantum number describes shape and determines orbital angular momentum associated with a particular orbital. It is characterized by values
Magnetic quantum number determines orientation of certain orbital. Its values range from
Spin quantum numbers help to predict intrinsic spin associated with electron. It can take only two values
(e)
Explanation of Solution
For
(f)
Interpretation:Number of electrons possible for
Concept introduction:There are four quantum numbers that serve basis of quantum aspects related to size, position, orientation, and spin associated with an electron.
Principal quantum number depicted as
Azimuthal quantum number describes shape and determines orbital angular momentum associated with a particular orbital. It is characterized by values
Magnetic quantum number determines orientation of certain orbital. Its values range from
Spin quantum numbers help to predict intrinsic spin associated with electron. It can take only two values
(f)
Explanation of Solution
There is no possibility of
(g)
Interpretation:Number of electrons possible for
Concept introduction:There are four quantum numbers that serve basis of quantum aspects related to size, position, orientation, and spin associated with an electron.
Principal quantum number depicted as
Azimuthal quantum number describes shape and determines orbital angular momentum associated with a particular orbital. It is characterized by values
Magnetic quantum number determines orientation of certain orbital. Its values range from
Spin quantum numbers help to predict intrinsic spin associated with electron. It can take only two values
(g)
Explanation of Solution
For
(h)
Interpretation: Number of electrons possible for
Concept introduction:There are four quantum numbers that serve basis of quantum aspects related to size, position, orientation, and spin associated with an electron.
Principal quantum number depicted as
Azimuthal quantum number describes shape and determines orbital angular momentum associated with a particular orbital. It is characterized by values
Magnetic quantum number determines orientation of certain orbital. Its values range from
Spin quantum numbers help to predict intrinsic spin associated with electron. It can take only two values
(h)
Explanation of Solution
For
(i)
Interpretation: Number of electrons possible for
Concept introduction:There are four quantum numbers that serve basis of quantum aspects related to size, position, orientation, and spin associated with an electron.
Principal quantum number depicted as
Azimuthal quantum number describes shape and determines orbital angular momentum associated with a particular orbital. It is characterized by values
Magnetic quantum number determines orientation of certain orbital. Its values range from
Spin quantum numbers help to predict intrinsic spin associated with electron. It can take only two values
(i)
Explanation of Solution
For
(j)
Interpretation:Number of electrons possible for
Concept introduction:There are four quantum numbers that serve basis of quantum aspects related to size, position, orientation, and spin associated with an electron.
Principal quantum number depicted as
Azimuthal quantum number describes shape and determines orbital angular momentum associated with a particular orbital. It is characterized by values
Magnetic quantum number determines orientation of certain orbital. Its values range from
Spin quantum numbers help to predict intrinsic spin associated with electron. It can take only two values
(j)
Explanation of Solution
For
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Chapter 12 Solutions
Chemical Principles
- 6.29 A mercury atom emits light at many wavelengths, two of which are at 435.8 and 546.1 nm. Both of these transitions are to the same final state. (a) What is the energy difference between the two states for each transition? (b) lf a transition between the two higher energy states could be observed, what would be the frequency of the light?arrow_forward6.41 Consider a 3d orbital. (a) What are the allowed values for the n and l quantum numbers for a 3d orbital? (b) What are the allowed values for the mlquantum number for a 3d orbital? (c) What is the maximum number of 3d orbitals that could be present in any one atom? (d) What is the maximum number of electrons that could occupy a single 3d orbital?arrow_forwardWhat is the maximum number of electrons that can occupy a f subshell (l = 3)?arrow_forward
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