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Chapter 2: Q2.3-2CC. (page 40)

What holds the atoms together in a crystal of magnesium chloride (MgCl2)?

Short Answer

Expert verified

In MgCl2, the electrostatic force of attraction between the oppositely charged ions (Mg+ and Cl-) holds the atoms together through ionic bonds.

Step by step solution

01

Electronic configuration of magnesium and chloride

MgCl2 is composed of Mg+ and Cl-.

Magnesium has 12 electrons, resulting in an electrical configuration of 2, 8, 2. Thus, magnesium has two electrons in its valence shell. Each chlorine atom in MgCl2 contains 17 electrons, and its electrical configuration is 2, 8, 7. As a result, each chlorine atom has seven valence electrons.

02

Formation of ionic bond

An ionic bond is a type of bond that is formed due to the electrostatic attraction between a positive and a negatively charged ion in a chemical compound. When one atom in a compound transfers electrons from itself to a neighboring atom, the result is an electrovalent or ionic compound.

03

Formation of MgCl2

Mgmust give away two valence electrons to complete its octet due to two electrons in the valence shell. Since it possesses seven electrons in its valence shell, each chlorine atom seeks to complete its octet by adding one more electron to its outermost orbit.

Thus, Mg transfers two electrons to two Cl atoms, giving a +2 charge on Mg and each chlorine atom a -1 charge, resulting in the formation of ionic bonds between the atoms of the molecule.

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Most popular questions from this chapter

The reactivity of an atom arises from

(A) the average distance of the outermost electron shell from the nucleus.

(B) the existence of unpaired electrons in the valence shell.

(C) the sum of the potential energies of all the electron shells.

(D) the potential energy of the valence shell.

The percentage of naturally occurring elements making up the human body (see table2.1) is similar to the percentage of these elements found in other organisms. How could you account for this similarity among organisms?

Recall that 14C has a half life of 5,730 years. To calibrate the x-axis for 14C decay, write the time before present in years below each half-life.

A standard curve of radioactive isotope decay is shown at the top of the right column. The graph line shows the fraction of the radioactive isotope over time (before present) in units of half lives. Recall that a half-life is the amount of time it takes for half of the radioactive isotope to decay. Labeling each data point with the corresponding fractions will help orient you to this graph. Draw an arrow to the data point for half-life = 1 and write the fraction of 14C that will remain after one half life. Calculate the fraction of 14C remaining at each half-life and write the fractions on the graph near arrows pointing to the data points. Convert each fraction to a decimal number and round off to a maximum of three significant digits (zero at the beginning of the number do not count as significant digits). Also write each decimal number in scientific notation.

While waiting at an airport, Neil Campbell once overhead this claim: it’s paranoid and ignorant to worry about industry or agriculture contaminating the environment with their chemical wastes. After all, this stuff is just made of the same atoms that were already present in our environment.” Drawing on your knowledge of electron distribution, bonding and emergent properties (see Concept 1.1), write a short essay(100-150 words) countering this argument.
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