(a)
Interpretation:
The orbital out of
Concept introduction:
An atom is made up of three subatomic particles-neutrons, protons, and electrons. Neutrons and protons are present in the nucleus of the atom, whereas electrons are revolving outside the nucleus in an atom. The electrons are arranged in the subshell of atoms according to their energy. The orbital with lower energy will fill first than the orbital with higher energy.
Answer to Problem 84E
The orbital
Explanation of Solution
The size of orbital depends on the energy level.
The value of energy level for
The value of energy level for
The orbital that has higher value of energy level will have larger size than the orbital with a lower value of energy level.
The orbital
The orbital
(b)
Interpretation:
The orbital out of
Concept introduction:
An atom is made up of three subatomic particles-neutrons, protons, and electrons. Neutrons and protons are present in the nucleus of the atom, whereas electrons are revolving outside the nucleus in an atom. The electrons are arranged in the subshell of atoms according to their energy. The orbital with lower energy will fill first than the orbital with higher energy.
Answer to Problem 84E
The orbital
Explanation of Solution
The size of orbital depends on the energy level.
The value of energy level for
The value of energy level for
The orbital that has higher value of energy level will have larger size than the orbital with a lower value of energy level.
The orbital
The orbital
(c)
Interpretation:
The orbital out of
Concept introduction:
An atom is made up of three subatomic particles-neutrons, protons, and electrons. Neutrons and protons are present in the nucleus of the atom, whereas electrons are revolving outside the nucleus in an atom. The electrons are arranged in the subshell of atoms according to their energy. The orbital with lower energy will fill first than the orbital with higher energy.
Answer to Problem 84E
The orbital
Explanation of Solution
Degenerate orbitals are the orbitals that have the same energy.
The value of energy level for
The value of energy level for
The energy level for both orbitals is the same and both belong to the same subshell
The orbital
(d)
Interpretation:
The orbital out of
Concept introduction:
An atom is made up of three subatomic particles-neutrons, protons, and electrons. Neutrons and protons are present in the nucleus of the atom, whereas electrons are revolving outside the nucleus in an atom. The electrons are arranged in the subshell of atoms according to their energy. The orbital with lower energy will fill first than the orbital with higher energy.
Answer to Problem 84E
The orbital
Explanation of Solution
Degenerate orbitals are the orbitals that have the same energy.
The value of energy level for
The value of energy level for
The energy level for both orbitals is the same and both belong to the same subshell
The orbital
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Chapter 4 Solutions
EP INTRODUCTORY CHEM.-MOD.MASTERINGCHEM
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- At its closest approach, Mercury is 77.3 million km from Earth. How long would it take to send a radio message from a space probe of Mercury to Earth when the planets are at this closest distance?arrow_forwardA particular microwave oven delivers 750 watts. (A watt is a unit of power, which is the joules of energy delivered, or used, per second.) If the oven uses microwave radiation of wavelength 12.6 cm, how many photons of this radiation are required to heat 1.00 g of water 1.00C, assuming that all of the photons are absorbed?arrow_forwardAn electron in a hydrogen atom in the level n = 5 undergoes a transition to level n = 3. What is the frequency of the emitted radiation?arrow_forward
- Give the possible values of a. the principal quantum number, b. the angular momentum quantum number, c. the magnetic quantum number, and d. the spin quantum number.arrow_forwardFor each of the following combinations of quantum numbers, make changes that produce an allowed combination. Count 3 for each change of n, 2 for each change of I, and 1 for each change of mi. What is the lowest possible count that you can obtain? a n = 3, I = 0, mi = 2 b n = 5, I = 5, mi = 4 c n = 3, I = 3, mi = 3 d n = 5, I = 6, mi = 3arrow_forwardWrite a set of quantum numbers for each of the electrons with an n of 3 in a Sc atom.arrow_forward
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