Textbook Question
Look at the location of elements A, B, C, and D in the following periodic table:
(a) Write the formula of the simplest binary hydride of each element.
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Ch.22 - The Main Group Elements
Chapter 22, Problem 22
The following models represent the structures of binary hydrides
of second-row elements:
(a) Identify the nonhydrogen atom in each case, and write the molecular formula for each hydride.
Verified step by step guidance1
Examine each model and identify the nonhydrogen atom present in the structure.
For each model, note the chemical symbol of the nonhydrogen atom.
Combine the chemical symbol of the nonhydrogen atom with hydrogen (H) to form the molecular formula.
Ensure the correct stoichiometry by determining the number of hydrogen atoms bonded to the nonhydrogen atom.
Write the molecular formula for each hydride, ensuring the correct representation of the nonhydrogen and hydrogen atoms.
Verified Solution
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Binary Hydrides
Binary hydrides are compounds formed from hydrogen and one other element, typically a nonmetal or metalloid. In the context of second-row elements, these hydrides include compounds like water (H2O) and ammonia (NH3). Understanding the nature of binary hydrides is essential for identifying the nonhydrogen atom and writing the correct molecular formula.
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01:03
Binary Acids
Molecular Formula
A molecular formula represents the number and type of atoms in a molecule. It is expressed using chemical symbols and subscripts, indicating the quantity of each element present. For example, the molecular formula for methane is CH4, indicating one carbon atom and four hydrogen atoms. Accurately determining the molecular formula is crucial for understanding the composition of the hydrides.
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02:08Determining Molecular Formulas
Second-Row Elements
Second-row elements refer to the elements in the second period of the periodic table, which includes lithium (Li) to neon (Ne). These elements exhibit varying properties and can form different types of compounds, including binary hydrides. Recognizing these elements and their common hydride forms is vital for identifying the nonhydrogen atom in the given models.
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02:35Elemental Forms of Elements
Related Practice
Textbook Question
Look at the location of elements A, B, C, and D in the following periodic table:
(d) Which hydrides react with water to give an acidic solution, and which give a basic solution?
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Textbook Question
Look at the location of elements A, B, C, and D in the following
periodic table:
(c) Which hydrides react with water to give H2 gas? Write a balanced net ionic equation for each reaction.
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Textbook Question
Using the shorthand notation of Figure 22.9, draw the structure of the cyclic silicate anion in which four SiO4 tetrahedra share O atoms to form an eight-membered ring of alternating Si and O atoms. Give the formula and charge of the anion.
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Textbook Question
Suggest a plausible structure for the silicate anion in the mineral thortveitite, Sc2Si2O7.
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Textbook Question
Describe the structures of the white and red allotropes of phosphorus, and explain why white phosphorus is so reactive.
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