Concept explainers
(a)
Interpretation:
The simple binary ionic compound formed when the pair of element reacts with each other is to be stated.
Concept Introduction:
The distribution of the electrons that exists in the atomic orbital of an atom is collectively known as electron configuration. The description of every electron that is moving freely in an orbital is given by the electron configuration of that atom.
Atoms lose or gain electrons to become stable by attaining nearest noble gas configuration. While doing so, they are converted to their respective ions. The positive ion and the negative ion combine to form their corresponding salt.
Answer to Problem 104AP
The simple binary ionic compound formed when the pair of element reacts with each other is
Explanation of Solution
The electron configuration of sodium with
The electron configuration of
Sodium loses
Selenium gains
The formation of salt is given below as:
After the formation of the ions, the interchange of the valency of the ions takes place and salt
(b)
Interpretation:
The simple binary ionic compound formed when the pair of element reacts with each other is to be stated.
Concept Introduction:
The distribution of the electrons that exists in the atomic orbital of an atom is collectively known as electron configuration. The description of every electron that is moving freely in an orbital is given by the electron configuration of that atom.
Atoms lose or gain electrons to become stable by attaining nearest noble gas configuration. While doing so, they are converted to their respective ions. The positive ion and the negative ion combine to form their corresponding salt.
Answer to Problem 104AP
The simple binary ionic compound formed when the pair of element reacts with each other is
Explanation of Solution
The electron configuration of rubidium with
The electron configuration of fluorine with
Rubidium loses
Fluorine gains
The formation of salt is given below as:
After the formation of the ions, the interchange of the valency of the ions takes place and salt
(c)
Interpretation:
The simple binary ionic compound formed when the pair of element reacts with each other is to be stated.
Concept Introduction:
The distribution of the electrons that exists in the atomic orbital of an atom is collectively known as electron configuration. The description of every electron that is moving freely in an orbital is given by the electron configuration of that atom.
Atoms lose or gain electrons to become stable by attaining nearest noble gas configuration. While doing so, they are converted to their respective ions. The positive ion and the negative ion combine to form their corresponding salt.
Answer to Problem 104AP
The simple binary ionic compound formed when the pair of element reacts with each other is
Explanation of Solution
The electron configuration of potassium with
The electron configuration of tellurium with
Potassium loses
Tellurium gains
The formation of salt is given below as:
After the formation of the ions, the interchange of the valency of the ions takes place and salt
(d)
Interpretation:
The simple binary ionic compound formed when the pair of element reacts with each other is to be stated.
Concept Introduction:
The distribution of the electrons that exists in the atomic orbital of an atom is collectively known as electron configuration. The description of every electron that is moving freely in an orbital is given by the electron configuration of that atom.
Atoms lose or gain electrons to become stable by attaining nearest noble gas configuration. While doing so, they are converted to their respective ions. The positive ion and the negative ion combine to form their corresponding salt.
Answer to Problem 104AP
The simple binary ionic compound formed when the pair of element reacts with each other is
Explanation of Solution
The electron configuration of barium with
The electron configuration of
Barium loses
Selenium gains
The formation of salt is given below as:
After the formation of the ions, the interchange of the valency of the ions takes place and salt
(e)
Interpretation:
The simple binary ionic compound formed when the pair of element reacts with each other is to be stated.
Concept Introduction:
The distribution of the electrons that exists in the atomic orbital of an atom is collectively known as electron configuration. The description of every electron that is moving freely in an orbital is given by the electron configuration of that atom.
Atoms lose or gain electrons to become stable by attaining nearest noble gas configuration. While doing so, they are converted to their respective ions. The positive ion and the negative ion combine to form their corresponding salt.
Answer to Problem 104AP
The simple binary ionic compound formed when the pair of element reacts with each other is
Explanation of Solution
The electron configuration of potassium with
The electron configuration of astatine with
Potassium loses
Astatine gains
The formation of salt is given below as:
After the formation of the ions, the interchange of the valency of the ions takes place and salt
(f)
Interpretation:
The simple binary ionic compound formed when the pair of element reacts with each other is to be stated.
Concept Introduction:
The distribution of the electrons that exists in the atomic orbital of an atom is collectively known as electron configuration. The description of every electron that is moving freely in an orbital is given by the electron configuration of that atom.
Atoms lose or gain electrons to become stable by attaining nearest noble gas configuration. While doing so, they are converted to their respective ions. The positive ion and the negative ion combine to form their corresponding salt.
Answer to Problem 104AP
The simple binary ionic compound formed when the pair of element reacts with each other is
Explanation of Solution
The electron configuration of francium with
The electron configuration of chlorine with
Francium loses
Chlorine gains
The formation of salt is given below as:
After the formation of the ions, the interchange of the valency of the ions takes place and salt
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Chapter 12 Solutions
EBK INTRODUCTORY CHEMISTRY
- 7.30 The bond in HF is said to be polar, with the hydrogen carrying a partial positive charge. For this to be true, the hydrogen atom must have less than one electron around it. Yet the Lewis dot structure of HF attributes two electrons to hydrogen. Draw a picture of the electron density distribution for HF and use it to describe how the hydrogen atom can carry a partial positive charge. How can these two models of the HF bond (the electron density and the Lewis structure) seem so different and yet describe the same thing?arrow_forward7.50 Chemical species are said to be isoelectronic if they have the same Lewis structure (regardless of charge). Consider these ions and write a Lewis structure for a neutral molecule that is isoelectronic with each of them, (a) CN , (b) NH4+ . (c) CO32arrow_forwardSketch a graph of the potential energy of two atoms as a function of the distance between them. On your graph, indicate how bond energy and bond distance are defined.arrow_forward
- rrange the atoms and/or ions in the following groups in order of decreasing size. msp;a.O,O,O2b.Fe2+,Ni2+,Zn2+c.Ca+,K+,Clarrow_forwardWrite out the full electron configuration for each of the following atoms and for the monatomic ion found in binary ionic compounds containing the element: (a) AI (b) Br (c) Sr (d) Li (e) As (f) Sarrow_forwardrite a Lewis structure for each of the following simple molecules. Show all bonding valence electron pairs as lines and all nonbonding valence electron pairs as dots. msp;a.GeH4c.NI3b.ICld.PF3arrow_forward
- rite a Lewis structure for each of the following simple molecules. Show all bonding valence electron pairs as lines and all nonbonding valence electron pairs as dots. For those molecules that exhibit resonance, draw the various possible resonance forms. msp;a.SO2b.N2O(Nincenter)c.O3arrow_forwardHydrogen gas and oxygen gas react violently to form water. When this occurs, a very loud noise is heard. Draw the Lewis structures for hydrogen gas, oxygen gas, and water. State whether each molecule is polar or nonpolar and why. Explain how the polarity of these molecules is related to hydrogen and oxygen existing in the gas phase at room temperature and water existing in the liquid phase at room temperature. Which is lower in energy for this reaction a mixture of hydrogen and oxygen gases or water? How do you know this is true?arrow_forwardhich noble gas has the same electron configuration as each of the ions in the following compounds? msp;a.calciumbromide,CaBr2b.aluminumselenide,Al2Se3c.strontiumoxide,SrOd.potassiumsulfide,K2Sarrow_forward
- What information can you use to predict whether a bond between two atoms is covalent or ionic?arrow_forwardCH3COCH3 (acetone) is a common laboratory solvent that is often used in nail polish remover. Its Lewis structure and space-filling molecular image are shown here: Acetone is a polar molecule; the oxygen end has a slightly negative charge (oxygen is more electronegative), whereas the carbon and hydrogen end has a slightly positive charge. In liquid acetone, the molecules are attracted to each other via these polar ends-the positive end of one molecule is attracted to the negative end of its neighbor-and therefore align as shown here: Draw a Lewis structure and space-filling molecular image for CH2Cl2 (dichloromethane), another common laboratory solvent. Is the molecule polar? Which end of the molecule has a slightly negative charge? Which end has a slightly positive charge? Draw several space-filling molecular images of CH2Cl2 showing how they align in liquid dichloromethane.arrow_forwardElement First Ionization Energy (kJImol) Second Ionization Energy (kiImol) I K 419 3050 Ca 590 1140 75. Use principles of atomic structure to answer each of the following: (a) The radius of the Ca atom is 197 pm; the radius of the Ca2+ ion is 99 pm. Account for the difference. (b) The lattice energy of CaO(s) is 3460 kJ/mol; the lattice energy of K2O is 2240 kJ/mol. Account for the difference. (c) Given these ionization values, explain the difference between Ca and K with regard to their first and second ionization energies. Element First Ionization Energy (kJ/mol) Second Ionization Energy (kJ/mol) K 419 3050 Ca 590 1140 (d) The first ionization energy of Mg is 738 kJ/mol and that of Al is 578 kJ/mol. Account for this difference.arrow_forward
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