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Magazine Chapter 8: Problem 110
Which anions form compounds that are generally soluble in water: \(\mathrm{CO}_{3}^{2-}, \mathrm{NO}_{3}^{-}, \mathrm{Br}^{-}, \mathrm{SO}_{4}^{2-}, \mathrm{OH}^{-}, \mathrm{PO}_{4}^{3-} ?\)
Short Answer
Expert verified
The anions that form compounds that are generally soluble in water are nitrate (NO鈧冣伝), bromide (Br鈦), and sulfate (SO鈧劼测伝), according to the general solubility rules. However, there may be exceptions, and the solubility of specific compounds should be checked if needed.
Step by step solution
01
Review the solubility rules
First, let's recall the solubility rules that help us predict the solubility of ionic compounds in water:
1. Salts containing Group 1 elements (Li鈦, Na鈦, K鈦, Rb鈦, Cs鈦) and ammonium ion (NH鈧勨伜) are soluble.
2. Salts containing nitrate (NO鈧冣伝), acetate (C鈧侶鈧僌鈧傗伝), and perchlorate (ClO鈧勨伝) are soluble.
3. Halides (Cl鈦, Br鈦, I鈦) are soluble, with the exception of those formed with Ag鈦, Hg鈧偮测伜, and Pb虏鈦.
4. Sulfates (SO鈧劼测伝) are soluble, with the exception of those formed with Ba虏鈦, Sr虏鈦, Pb虏鈦, Ca虏鈦, and Hg鈧偮测伜.
5. Carbonates (CO鈧兟测伝), phosphates (PO鈧劼斥伝), chromates (CrO鈧劼测伝), and sulfides (S虏鈦) are insoluble, except those formed with Group 1 elements and NH鈧勨伜.
6. Hydroxides (OH鈦) are insoluble, except those formed with Group 1 elements, NH鈧勨伜, Ca虏鈦, Sr虏鈦, and Ba虏鈦.
*Keep in mind that these rules provide a general guideline, and there could be some exceptions.
02
Determine solubility of the given anions
Using the solubility rules, we can determine the solubility of compounds formed with each given anion:
- Carbonate (CO鈧兟测伝): Rule 5 tells us that carbonates are generally insoluble, with some exceptions.
- Nitrate (NO鈧冣伝): According to rule 2, nitrates are soluble.
- Bromide (Br鈦): Rule 3 indicates that halides are soluble, with few exceptions.
- Sulfate (SO鈧劼测伝): Rule 4 states that sulfates are soluble, with some exceptions.
- Hydroxide (OH鈦): According to rule 6, hydroxides are generally insoluble, with few exceptions.
- Phosphate (PO鈧劼斥伝): Rule 5 states that phosphates are generally insoluble, with some exceptions.
03
List the anions that form generally soluble compounds
Based on our analysis, the anions that form compounds that are generally soluble in water are:
- Nitrate (NO鈧冣伝)
- Bromide (Br鈦)
- Sulfate (SO鈧劼测伝)
These are the anions that will often form soluble compounds in water, according to the general solubility rules. Please be aware that there may be exceptions to these rules, and the solubility of specific compounds should be checked if needed.
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Key Concepts
These are the key concepts you need to understand to accurately answer the question.
Ionic Compounds Solubility
Understanding the solubility of ionic compounds in water is essential for students studying chemistry, as it applies to various areas including chemical reactions and analysis. Solubility rules are guidelines that predict whether an ionic compound will dissolve (be soluble) in water.
When we look at an ionic compound, we are observing a substance made from a positively charged ion, known as a cation, and a negatively charged ion, known as an anion. The solubility of an ionic compound in water is influenced by the nature of these ions; that is, certain anions and cations can cause a compound to be soluble or insoluble in water.
For instance, most compounds containing Group 1 elements, which include lithium (Li鈦), sodium (Na鈦), potassium (K鈦), rubidium (Rb鈦), cesium (Cs鈦), as well as the ammonium ion (NH鈧勨伜), are generally soluble. This is because these ions form strong ionic bonds with water molecules, leading to the dissolution of the compound.
To simplify, let's think of solubility as a match-up between ions. Some pairs get along well and mix into water, making the compound soluble. However, others don鈥檛 pair up as nicely, which leads to the compound being insoluble鈥攔emaining undissolved in water.
When we look at an ionic compound, we are observing a substance made from a positively charged ion, known as a cation, and a negatively charged ion, known as an anion. The solubility of an ionic compound in water is influenced by the nature of these ions; that is, certain anions and cations can cause a compound to be soluble or insoluble in water.
For instance, most compounds containing Group 1 elements, which include lithium (Li鈦), sodium (Na鈦), potassium (K鈦), rubidium (Rb鈦), cesium (Cs鈦), as well as the ammonium ion (NH鈧勨伜), are generally soluble. This is because these ions form strong ionic bonds with water molecules, leading to the dissolution of the compound.
To simplify, let's think of solubility as a match-up between ions. Some pairs get along well and mix into water, making the compound soluble. However, others don鈥檛 pair up as nicely, which leads to the compound being insoluble鈥攔emaining undissolved in water.
Improving Solubility Predictions
- Review the periodic table to become familiar with the groups of elements that affect solubility.
- Memorize key solubility rules to quickly predict outcomes in different scenarios.
- Conduct experiments to observe solubility firsthand for various compounds, as practical experience reinforces theoretical knowledge.
- Use online solubility calculators and databases to check the solubility of specific compounds when in doubt.
Soluble Anions
In our study of solubility, anions play a crucial role. Certain anions are almost always a sign that the compound they form will be soluble in water. These include the nitrate ion (NO鈧冣伝), acetate ion (C鈧侶鈧僌鈧傗伝), and perchlorate ion (ClO鈧勨伝). The rule of thumb is that if you spot one of these anions, the compound is likely to dissolve in water.
However, there are also anions that are typically found in compounds that are insoluble or partially soluble, such as carbonates (CO鈧兟测伝), phosphates (PO鈧劼斥伝), and hydroxides (OH鈦). But, as with nearly every rule, there are exceptions. For example, while most carbonates are insoluble, those paired with Group 1 cations or ammonium will dissolve.
However, there are also anions that are typically found in compounds that are insoluble or partially soluble, such as carbonates (CO鈧兟测伝), phosphates (PO鈧劼斥伝), and hydroxides (OH鈦). But, as with nearly every rule, there are exceptions. For example, while most carbonates are insoluble, those paired with Group 1 cations or ammonium will dissolve.
Factors Influencing Anion Solubility
- Chemical composition: The nature of the anion itself will inherently influence solubility.
- pH of the solution: Some anions like phosphates and carbonates are more soluble in acidic conditions.
- Presence of complexing agents: Certain chemicals can interact with anions to increase their solubility.
Water Solubility Chemistry
Water, often referred to as the 'universal solvent', has a unique ability to dissolve many substances, and this includes a wide variety of ionic compounds. The chemistry of water solubility is grounded in the polarity of water molecules. Each water molecule has a slightly positive charge on one side and a slightly negative charge on the other, which allows it to interact with and dissolve many other polar substances, including salts.
When an ionic compound comes into contact with water, the water molecules surround the ions. The positively charged hydrogen atoms in the water are attracted to the negatively charged anions, while the negatively charged oxygen atoms are attracted to the positively charged cations. This interaction can cause the ionic compound to dissociate into its individual ions, becoming 'soluble'.
When an ionic compound comes into contact with water, the water molecules surround the ions. The positively charged hydrogen atoms in the water are attracted to the negatively charged anions, while the negatively charged oxygen atoms are attracted to the positively charged cations. This interaction can cause the ionic compound to dissociate into its individual ions, becoming 'soluble'.
Key Factors Affecting Water Solubility
- Temperature: Generally, increasing temperature enhances the solubility of most compounds in water.
- Pressure: It has less effect on solids and liquids, but pressure can significantly affect the solubility of gases in water.
- Nature of solute and solvent: The molecular structure, polarity, and ionization will determine the compatibility between solute and solvent.
