/*! This file is auto-generated */ .wp-block-button__link{color:#fff;background-color:#32373c;border-radius:9999px;box-shadow:none;text-decoration:none;padding:calc(.667em + 2px) calc(1.333em + 2px);font-size:1.125em}.wp-block-file__button{background:#32373c;color:#fff;text-decoration:none} Problem 62 Consider a hypothetical simple i... [FREE SOLUTION] | 91影视

91影视

Log out

Learning Materials

Features

Discover

Chapter 5: Problem 62

Consider a hypothetical simple ion \(\mathrm{M}^{2+}\). Determine the formula of the compound this ion would form with each of the following anions. a. acetate b. permanganate c. oxide d. hydrogen phosphate e. hydroxide f. nitrite

Short Answer

Expert verified
a. M(C鈧侶鈧僌鈧)鈧 b. M(MnO鈧)鈧 c. MO d. MHPO鈧 e. M(OH)鈧 f. M(NO鈧)鈧

Step by step solution

01

1. Anion Charges

To predict the formula of the compound that will form between M^2+ and each of the given anions, we first need to determine the charge of these anions: a. Acetate: C鈧侶鈧僌鈧傗伝 - Charge: -1 b. Permanganate: MnO鈧勨伝 - Charge: -1 c. Oxide: O虏鈦 - Charge: -2 d. Hydrogen phosphate: HPO鈧劼测伝 - Charge: -2 e. Hydroxide: OH鈦 - Charge: -1 f. Nitrite: NO鈧傗伝 - Charge: -1
02

2. Determining the Compounds

Now that we have the charges of the anions, let's combine them with the M^2+ ion in such a way that the total charge of the compound is neutral. a. M^2+ + C鈧侶鈧僌鈧傗伝: Since the charge on M^2+ is +2 and on acetate is -1, we need two acetate ions to balance the charges. Compound: M(C鈧侶鈧僌鈧)鈧 b. M^2+ + MnO鈧勨伝: The charge on M^2+ is +2 and on permanganate is -1, so we need two permanganate ions to balance the charges. Compound: M(MnO鈧)鈧 c. M^2+ + O虏鈦: Since the charge on M^2+ is +2, and on oxide is -2, only one oxide ion is needed to balance the charge. Compound: MO d. M^2+ + HPO鈧劼测伝: The charge on M^2+ is +2 and on hydrogen phosphate is -2, only one hydrogen phosphate ion is needed to balance the charge. Compound: MHPO鈧 e. M^2+ + OH鈦: Since the charge on M^2+ is +2 and on hydroxide is -1, we need two hydroxide ions to balance the charges. Compound: M(OH)鈧 f. M^2+ + NO鈧傗伝: The charge on M^2+ is +2 and on nitrite is -1, so we need two nitrite ions to balance the charges. Compound: M(NO鈧)鈧 In summary, the hypothetical simple ion M^2+ forms the following compounds when combined with the given anions: a. M(C鈧侶鈧僌鈧)鈧 b. M(MnO鈧)鈧 c. MO d. MHPO鈧 e. M(OH)鈧 f. M(NO鈧)鈧

Unlock Step-by-Step Solutions & Ace Your Exams!

  • Full Textbook Solutions

    Get detailed explanations and key concepts

  • Unlimited Al creation

    Al flashcards, explanations, exams and more...

  • Ads-free access

    To over 500 millions flashcards

  • Money-back guarantee

    We refund you if you fail your exam.

Over 30 million students worldwide already upgrade their learning with 91影视!

Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Ions and Charges
To understand chemical compound formulation with ions, it鈥檚 essential to know about the charges that ions possess. An ion is an atom or molecule that has lost or gained one or more electrons, hence acquiring an electric charge. We have two main types of ions: cations and anions.

  • Cations are positively charged ions. They form when an atom loses one or more electrons, resulting in more protons than electrons. In our exercise, a hypothetical ion like \( \text{M}^{2+} \) is a cation with a +2 charge.
  • Anions are negatively charged ions. These are formed when an atom gains electrons, causing it to have more electrons than protons. For instance, acetate (C鈧侶鈧僌鈧傗伝) and oxide (O虏鈦) are anions with charges of -1 and -2 respectively in this context.
Knowing the charges of ions is crucial as it determines how they will combine to form compounds, thereby guiding us toward achieving chemical neutrality in compounds.
Anion-Cation Combination
When cations and anions combine to form compounds, they do so in a way that neutralizes the total charge. This means the sums of the positive and negative charges must equal zero. This process is often referred to as anion-cation combination.

In our problem, we have a \( \text{M}^{2+} \) ion. We aim to form compounds using this ion and various anions. Each anion has a defined charge, and we must balance these charges with the \( \text{M}^{2+} \) ion.

  • If an anion like acetate has a charge of -1, as with \( \text{C}_{2} \text{H}_{3} \text{O}_{2}^{-} \), you need two of them to balance one \( \text{M}^{2+} \) ion, forming the compound \( \text{M(C}_{2} \text{H}_{3} \text{O}_{2})_{2} \).
  • An anion with a -2 charge, like oxide (\( \text{O}^{2-} \)), only requires one to combine with \( \text{M}^{2+} \), resulting in \( \text{MO} \).
Balancing these charges correctly is vital for arriving at the right compound formula, and each combination must result in a neutral compound.
Chemical Neutrality
Achieving chemical neutrality is a fundamental goal in forming compounds. For a compound to be stable and neutral, the total positive charge from the cations must exactly cancel out the total negative charge from the anions. This neutrality ensures that the compound does not have an overall charge, which is essential for its stability.

Consider the formation of a compound between \( \text{M}^{2+} \) and nitrite (\( \text{NO}_{2}^{-} \)). The \( \text{M}^{2+} \) ion has a +2 charge, while the nitrite ion has a -1 charge. To achieve a neutral compound, you would need two nitrite ions for every \( \text{M}^{2+} \) ion, forming \( \text{M(NO}_{2})_{2} \).

In summary, when forming compounds, ensure that:
  • The number of positive and negative charges in the compound are equal.
  • The final formulation results in a compound with no net charge.
This need for chemical neutrality is the guiding principle behind combining ions into stable compounds, making it a core concept in chemistry.

One App. One Place for Learning.

All the tools & learning materials you need for study success - in one app.

Get started for free

Most popular questions from this chapter

Most metallic elements form oxides, and often the oxide is the most common compound of the element that is found in the earth's crust. Write the formulas for the oxides of the following metallic elements. a. potassium b. magnesium c. iron(II) d. iron(III) e. zinc(II) f. lead(II) g. aluminum

The formula for ammonium phosphate is ___________

A member of the alkali metal family whose most stable ion contains 36 electrons forms a compound with chlorine. What is the correct formula for this compound?

In each of the following, identify which names are incorrect for the given formulas, and give the correct name. a. \(\mathrm{CuCl}_{2}\), copper(I) chloride b. \(\mathrm{Ag}_{2} \mathrm{O},\) silver oxide c. \(\mathrm{Li}_{2} \mathrm{O},\) lithium oxide d. CaS , calcium(II) sulfide e. \(\mathrm{Cs}_{2} \mathrm{~S}\), cesium sulfide

Write the formula for each of the following acids. a. hydrocyanic acid b. nitric acid c. sulfuric acid d. phosphoric acid e. hypochlorous acid f. hydrobromic acid g. bromous acid h. hydrofluoric acid
See all solutions

Recommended explanations on Chemistry Textbooks

Chemical Reactions

Read Explanation

Physical Chemistry

Read Explanation

The Earths Atmosphere

Read Explanation

Inorganic Chemistry

Read Explanation

Organic Chemistry

Read Explanation

Nuclear Chemistry

Read Explanation
View all explanations

What do you think about this solution?

We value your feedback to improve our textbook solutions.

Study anywhere. Anytime. Across all devices.