Ch.4 - Reactions in Aqueous Solution

Problem 121

Chapter 4, Problem 121

Neither strontium (Sr) nor antimony (Sb) is shown in the activity series of Table 4.5. Based on their positions in the periodic table, which would you expect to be the better reducing agent? Will the following reaction occur? Explain.

Verified step by step guidance

insert step 1> Identify the positions of strontium (Sr) and antimony (Sb) in the periodic table. Strontium is an alkaline earth metal in Group 2, while antimony is a metalloid in Group 15.

insert step 2> Recall that elements in Group 2, like strontium, are typically more reactive metals and are often good reducing agents because they tend to lose electrons easily.

insert step 3> Consider the general trend in the periodic table where metals, especially those in the s-block, are better reducing agents compared to metalloids and nonmetals.

insert step 4> Conclude that strontium (Sr), being a more reactive metal, is likely to be a better reducing agent than antimony (Sb).

insert step 5> To determine if a reaction will occur, consider the reactivity of the elements involved. If strontium is a better reducing agent, it is more likely to participate in redox reactions compared to antimony.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Reducing Agents

A reducing agent is a substance that donates electrons in a chemical reaction, thereby reducing another substance. The strength of a reducing agent is often determined by its position in the activity series, where metals higher in the series are generally better at losing electrons. Understanding the properties of strontium and antimony, including their electron configurations and reactivity, is essential for determining which is the better reducing agent.

Activity Series

The activity series is a list of metals ranked by their ability to displace other metals from compounds in solution. Metals higher in the series are more reactive and can act as reducing agents more effectively. Since strontium is an alkaline earth metal and typically more reactive than antimony, which is a metalloid, this series helps predict the likelihood of a reaction occurring between these elements.

Periodic Trends

Periodic trends refer to the predictable patterns in elemental properties across the periodic table, such as electronegativity, ionization energy, and atomic radius. These trends influence the reactivity of elements; for instance, as you move down a group, metallic character increases, making elements more likely to act as reducing agents. Analyzing the positions of strontium and antimony in the periodic table provides insight into their relative reactivity and potential to participate in redox reactions.

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Related Practice

Textbook Question

Use the activity series of metals (Table 4.5) to predict the outcome of each of the following reactions. If no reaction occurs, write NR. (b)

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Textbook Question

Use the activity series of metals (Table 4.5) to predict the outcome of each of the following reactions. If no reaction occurs, write NR. (c)

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Textbook Question

Use the activity series of metals (Table 4.5) to predict the outcome of each of the following reactions. If no reaction occurs, write NR. (d)

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Textbook Question

(a) Use the following reactions to arrange the elements A, B, C, and D in order of their decreasing ability as reducing agents:

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Textbook Question

(b) Which of the following reactions would you expect to occur according to the activity series you established in part (a)?

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Textbook Question

(a) Use the following reactions to arrange the elements A, B, C, and D in order of their decreasing ability as reducing agents:

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