Deviation in the bond angle of NO 2 and NO 2 − from their ideal bond angle is to be explained. Concept introduction: The following steps are used to determine the molecular shape of the given molecule. Step 1: Write the Lewis structure of the given formula and place the atoms. Step 2: Count all electron groups including bonding and non-bonding pairs around the central atom and use it to assign one of the five electron-group arrangement. Step 3: Write the ideal bond angle related to the electron-group arrangement and the effect of any deviation can be predicted by using VSEPR. Step 4: Count the bonding and non-bonding electron groups and draw the molecular shape accordingly.
Deviation in the bond angle of NO 2 and NO 2 − from their ideal bond angle is to be explained. Concept introduction: The following steps are used to determine the molecular shape of the given molecule. Step 1: Write the Lewis structure of the given formula and place the atoms. Step 2: Count all electron groups including bonding and non-bonding pairs around the central atom and use it to assign one of the five electron-group arrangement. Step 3: Write the ideal bond angle related to the electron-group arrangement and the effect of any deviation can be predicted by using VSEPR. Step 4: Count the bonding and non-bonding electron groups and draw the molecular shape accordingly.
Deviation in the bond angle of NO2 and NO2− from their ideal bond angle is to be explained.
Concept introduction:
The following steps are used to determine the molecular shape of the given molecule.
Step 1: Write the Lewis structure of the given formula and place the atoms.
Step 2: Count all electron groups including bonding and non-bonding pairs around the central atom and use it to assign one of the five electron-group arrangement.
Step 3: Write the ideal bond angle related to the electron-group arrangement and the effect of any deviation can be predicted by using VSEPR.
Step 4: Count the bonding and non-bonding electron groups and draw the molecular shape accordingly.
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, chemistry and related others by exploring similar questions and additional content below.