1. Draw models for the molecule that will form between nitrogen and hydrogen atoms. 

Electron Dot Diagram                                           Structural Formula

 

2.   Draw models for the molecule that will form between iodine atoms.

 

      Electron Dot Diagram                 Structural Formula  

 

 

 

 

 

Electron Dot Diagram                                           Structural Formula

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**Modeling Hydrogen Chloride Molecule** **Instruction:** Draw models for the molecule that will form between chlorine and hydrogen atoms. --- **Electron Dot Diagram** In this section, you should draw the electron dot diagram illustrating the hydrogen chloride (HCl) molecule. Represent the chlorine atom with the appropriate number of valence electrons (seven dots around the symbol 'Cl') and the hydrogen atom with one electron (one dot next to 'H'). Ensure the shared pair of electrons (bond) between hydrogen and chlorine is clearly depicted. --- **Structural Formula** Here, represent the structural formula for hydrogen chloride. Typically, you should show the hydrogen (H) and chlorine (Cl) atoms connected by a single line, indicating a single covalent bond (H-Cl). By understanding these diagrams, one can visualize how the hydrogen and chlorine atoms share electrons to form the hydrogen chloride molecule.

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# Exploring Iodine Molecule Formation ## Introduction Learn how to represent the iodine molecule using different scientific models. When iodine atoms combine, they form a diatomic molecule, I2. Representing this molecule requires understanding two different diagrams: the Electron Dot Diagram and the Structural Formula. ### Electron Dot Diagram The Electron Dot Diagram (or Lewis Dot Structure) is a way to visualize the valence electrons of atoms within a molecule. For iodine, this involves showing atoms with their valence electrons represented as dots. Each iodine atom has seven valence electrons. ### Structural Formula The Structural Formula provides a simplified representation of the molecule, focusing on the connections between atoms. In the case of iodine, the structural formula I–I represents the single covalent bond shared between two iodine atoms. By comparing these diagrams, you gain insights into both the electron configuration and the molecular structure of iodine, helping you understand how atoms bond and form molecules.