(a) Explanation Given The As − As bond length in elemental arsenic is 2.48 A ∘ . The Cl − Cl bond length in Cl 2 is 1.99 A ∘ . As − Cl bond length is the sum of the atomic radii of As and the atomic radii of Cl . The atomic radius of single As atom is calculated by the formula, The atomic radius of single As atom = Bond length 2 Substitute the value of bond length of elemental arsenic in the above formula. The atomic radius of single As atom = 2 .48 A ∘ 2 = 1.24 A ∘ The atomic radius of single Cl atom is calculated by the formula, The atomic radius of single Cl atom = Bond length 2 Substitute the value of bond length of Cl 2 in the above formula. The atomic radius of single Cl atom = 1 .99 A ∘ 2 = 0 (b) Interpretation Introduction To determine: The predicted bond length of As − Cl in arsenic trichloride using the atomic radii in figure 7.7.

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Question

Chapter 16, Problem 10E

(a)

Interpretation Introduction

To determine: The predicted bond length of As−Cl in arsenic trichloride (AsCl3) .

(b)

Interpretation Introduction

To determine: The predicted bond length of As−Cl in arsenic trichloride using the atomic radii in figure 7.7.

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Chapter 16 Solutions

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The predicted bond length of As − Cl in arsenic trichloride ( AsCl 3 ) .

Concept explainers

To determine: The predicted bond length of As−Cl in arsenic trichloride (AsCl3) .

To determine: The predicted bond length of As−Cl in arsenic trichloride using the atomic radii in figure 7.7.

Chapter 16 Solutions