For each row in the table below, decide whether the pair of elements will form a molecular or lonic compound. If they will, then enter the chemical formula of the compound. If the elements will form more than one compound, enter the compound with the fewest total number of atoms. You may assume all chemical bonds are single bonds, not double or triple bonds. esc element #1 ! 1 barium. barium krypton Explanation Q element #2 NO 2 cesium sulfur neon Check W compound formed? chemical formula ionic O molecular Oneither O lonic O molecular neither lonic O molecular Oneither #3 E $ 4 R 0 0 de 5 % T 00 MacBook Pro A X 6 Y & 7 (D)) U Ⓒ2022 McGraw Hill LLC. All Rights Reserved. Terms of Use | Privacy Center | Accessibility +00 8 ( 9 7 O O // P { + [ ol 11 Ar

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The image shows an interactive exercise related to chemical bonding. The instructions at the top read: "For each row in the table below, decide whether the pair of elements will form a molecular or ionic compound. If they will, then enter the chemical formula of the compound. If the elements will form more than one compound, enter the compound with the fewest total number of atoms. You may assume all chemical bonds are single bonds, not double or triple bonds." Below the instructions, there is a table with headings and options to select: - **Table Columns:** - Element #1 - Element #2 - Compound formed? (Options: Ionic, Molecular, Neither) - Chemical formula - **Table Rows:** 1. **Barium and Cesium** - Options: Ionic, Molecular, Neither - Input box for the chemical formula 2. **Barium and Sulfur** - Options: Ionic, Molecular, Neither - Input box for the chemical formula 3. **Krypton and Neon** - Options: Ionic, Molecular, Neither - Input box for the chemical formula Beside the table, there is a symbol indicating tasks that can be reset or submitted (a circular arrow and a checkmark). Buttons at the bottom include "Explanation" and "Check". **Note:** This exercise is designed to help students understand the difference between molecular and ionic compounds and requires the user to actively engage by selecting the correct type of bond and providing the chemical formula where applicable.