**Educational Resource: Understanding Covalent Bonding Using the Periodic Table** --- ### Periodic Table Reference and Covalent Bonding Exercise **Instructions:** Use the periodic table reference provided to answer the following question about covalent bonding. Illustration: The provided image features a color-coded periodic table of elements. The periodic table is organized as follows: - Columns are labeled as groups (1A to 8A) - Rows are labeled as periods (1 to 7) - Elements are color-coded: - Light orange for Group 1A and 2A - Dark blue for transition metals (Groups 3-12) - Green for Group 4A to 6A - Light green for Group 7A - Yellow for Group 8A (Noble gases) **Key Elements in Focus:** - **Silicon (Si)** is highlighted in green, located in Group 4A, Period 3. - **Iodine (I)** is found in Group 7A, Period 5. ### Task: 1. The element *silicon* would be expected to form ____ covalent bond(s) in order to obey the octet rule. 2. Use the octet rule to predict the formula of the compound that would form between *silicon* and *iodine*, if the molecule contains only one silicon atom and only single bonds are formed. **Formula:** ____________ **Submission:** Click “Submit Answer” to complete this exercise. If you need to start over, click “Retry Entire Group.” Note: No more group attempts remain. --- ### Answering Guide: 1. Silicon forms four covalent bonds to complete its octet. 2. The compound formed between silicon (Si) and iodine (I), with silicon having four bonds, is **SiI₄**. ### Additional Help: - **Review Topics:** Access additional reading material if needed. - **References:** Use reference materials provided in your course to assist you in understanding the periodic table and covalent bonding principles. **Submit Answer | Retry Entire Group** --- **Periodic Table Diagram Explanation:** The image includes a detailed diagram of the periodic table, color-coded to differentiate between various groups and periods for ease of understanding. Key elements such as silicon and iodine are easily identifiable. **Note:** If you have questions, refer to your course materials or ask your instructor for clarification.
**Educational Resource: Understanding Covalent Bonding Using the Periodic Table** --- ### Periodic Table Reference and Covalent Bonding Exercise **Instructions:** Use the periodic table reference provided to answer the following question about covalent bonding. Illustration: The provided image features a color-coded periodic table of elements. The periodic table is organized as follows: - Columns are labeled as groups (1A to 8A) - Rows are labeled as periods (1 to 7) - Elements are color-coded: - Light orange for Group 1A and 2A - Dark blue for transition metals (Groups 3-12) - Green for Group 4A to 6A - Light green for Group 7A - Yellow for Group 8A (Noble gases) **Key Elements in Focus:** - **Silicon (Si)** is highlighted in green, located in Group 4A, Period 3. - **Iodine (I)** is found in Group 7A, Period 5. ### Task: 1. The element *silicon* would be expected to form ____ covalent bond(s) in order to obey the octet rule. 2. Use the octet rule to predict the formula of the compound that would form between *silicon* and *iodine*, if the molecule contains only one silicon atom and only single bonds are formed. **Formula:** ____________ **Submission:** Click “Submit Answer” to complete this exercise. If you need to start over, click “Retry Entire Group.” Note: No more group attempts remain. --- ### Answering Guide: 1. Silicon forms four covalent bonds to complete its octet. 2. The compound formed between silicon (Si) and iodine (I), with silicon having four bonds, is **SiI₄**. ### Additional Help: - **Review Topics:** Access additional reading material if needed. - **References:** Use reference materials provided in your course to assist you in understanding the periodic table and covalent bonding principles. **Submit Answer | Retry Entire Group** --- **Periodic Table Diagram Explanation:** The image includes a detailed diagram of the periodic table, color-coded to differentiate between various groups and periods for ease of understanding. Key elements such as silicon and iodine are easily identifiable. **Note:** If you have questions, refer to your course materials or ask your instructor for clarification.
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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