Fill in the following table using N/A for nothing happened, rotation, or vibration with a brief| explanation. Molecules Microwave Infrared UV Visible CO Rotation Vibration N/A N/A N2 N/A N/A N/A N/A O2 N/A N/A N/A N/A CO2 N/A Vibration N/A N/A H;O Rotational Vibration N/A N/A Rotation Vibration Absorbs/REFLECTS Breaks single bond NO2 LIGHT Rotation Vibration N/A Breaks single bond

I have filled out the table with what I viewed on the simulator. I just need to know why they occur. Thanks!

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**Table Explanation: Molecular Behavior in Different Electromagnetic Spectra** This table outlines how various molecules behave when exposed to different parts of the electromagnetic spectrum: Microwave, Infrared, UV, and Visible light. | Molecules | Microwave | Infrared | UV | Visible | |-----------|---------------|----------|----------------------------|--------------------| | CO | Rotation | Vibration| N/A | N/A | | N₂ | N/A | N/A | N/A | N/A | | O₂ | N/A | N/A | N/A | N/A | | CO₂ | N/A | Vibration| N/A | N/A | | H₂O | Rotational | Vibration| N/A | N/A | | NO₂ | Rotation | Vibration| Absorbs/REFLECTS LIGHT | Breaks single bond | | O₃ | Rotation | Vibration| N/A | Breaks single bond | **Key Observations:** - **CO (Carbon Monoxide):** - Microwave: Causes rotational transitions. - Infrared: Causes vibrational transitions. - UV and Visible: No significant interaction (N/A). - **N₂ (Nitrogen) & O₂ (Oxygen):** - Do not show significant reactions in the electromagnetic spectrum provided (N/A across all). - **CO₂ (Carbon Dioxide):** - Infrared: Leads to vibrational transitions. - Non-reactive in Microwave, UV, and Visible spectra (N/A). - **H₂O (Water):** - Microwave: Exhibits rotational transitions. - Infrared: Shows vibrational transitions. - Not responsive to UV and Visible spectra (N/A). - **NO₂ (Nitrogen Dioxide):** - Microwave: Rotation occurs. - Infrared: Vibration occurs. - UV: Absorbs and reflects light. - Visible: Breaks single bonds. - **O₃ (Ozone):** - Microwave: Rotation. - Infrared: Vibration. - Visible: Breaks single bonds. - No significant interaction with UV (N/A). The table highlights how different molecules respond diversely to specific ranges of the electromagnetic spectrum, influencing their physical behaviors like rotation and vibration, while also affecting chemical