(a)
Interpretation:
The reason for the
(a)
Explanation of Solution
Electron affinity is the energy required to add an electron to the neutral atom.
The electronic configuration of neutral selenium and selenium anion is written as follows:
The electronic configuration of neutral bromine and bromine anion is written as follows:
Addition of one electron to bromine gives a noble gas configuration. Hence, it is very stable. So, selenium has lower electron affinity than bromine.
(b)
Interpretation:
The reason for the first ionization energy of aluminum being lower than that of magnesium has to be explained using electron configurations.
(b)
Explanation of Solution
The ionization energy is the energy required to remove the outermost electron in an atom.
The electronic configuration of neutral aluminum and aluminum cation is written as follows:
The electronic configuration of neutral magnesium and magnesium cation is written as follows:
The magnesium atom has all subshells filled. So, removing an electron requires more energy. Hence, aluminum has lower first ionization energy than magnesium.
(c)
Interpretation:
The reason for the first ionization energy of sulfur being lower than that of phosphorus has to be explained using electron configurations.
(c)
Explanation of Solution
The ionization energy is the energy required to remove the outermost electron in an atom.
The electronic configuration of neutral sulfur and sulfur cation is written as follows:
The electronic configuration of neutral phosphorus and phosphorus cation is written as follows:
The phosphorus atom has half-filledp-subshell. So, removing an electron requires more energy. Hence, sulfur has lower first ionization energy than phosphorus.
(d)
Interpretation:
The reason for the first ionization energy of bromine being lower than that of chlorine has to be explained using electron configurations.
(d)
Explanation of Solution
The ionization energy is the energy required to remove the outermost electron in an atom.
The electronic configuration of neutral bromine and bromine cation is written as follows:
The electronic configuration of neutral chlorine and chlorine cation is written as follows:
The electron removed from chlorine is from
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Chapter 5 Solutions
OWLv2 for Moore/Stanitski's Chemistry: The Molecular Science, 5th Edition, [Instant Access], 1 term (6 months)
- Arrange in order of increasing ionization energy. (a) the Group 1A elements H, Li, and Cs (b) the Period 4 elements As, K, & Searrow_forward(a) Identify the number of electrons in the ground-state outer shell of atomic oxygen (atomic number 8).(b) How many electrons are in the ground-state outer shell of fluorine?arrow_forwardArrange in order of increasing atomic size. (a) the period 3 elements Cl, Na, and Ar (b) the Group 2A elements Ca, Be, and Mgarrow_forward
- Identify each statement as true or false: (a) Ionization energiesare always negative quantities. (b) Oxygen has a larger firstionization energy than fluorine. (c) The second ionizationenergy of an atom is always greater than its first ionizationenergy. (d) The third ionization energy is the energy neededto ionize three electrons from a neutral atom.arrow_forwardGive the shell electron configuration for the following. (For example, the shell electron configuration of lithium is written 2,1.) (a) argon (b) magnesiumarrow_forward(a) Describe the trends of atomic size and ionization energy, respectively, in the Periodic Table: (1) from left to right across a period, and (ii) from top to bottom down a group. (b) Rank the following elements: Na, Mg, Al, and K, in increasing order of: (i) atomic size; (ii) ionization energy, and (iii) reactivity. (c) Rank the following elements: F, CI, Br and I, in increasing order of: (i) atomic size; (ii) electron affinity, (iii) electronegativity, and (iv) reactivity.arrow_forward
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