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hybridization of silicon nitride

Input interpretation

silicon nitride | orbital hybridization
silicon nitride | orbital hybridization

Result

First draw the structure diagram for silicon nitride, and for every non-hydrogen atom, count the σ-bonds. Note that double and triple bonds consist of one σ-bond together with one or two π-bonds:  Identify those atoms with lone pairs:  Find the steric number by adding the lone pair count to the number of σ-bonds:  Consult the following chart to determine the hybridization from the steric number: steric number | hybridization 2 | sp 3 | sp^2 4 | sp^3 5 | dsp^3 6 | d^2sp^3 7 | d^3sp^3 Now assign the hybridization for each atom: Answer: |   |
First draw the structure diagram for silicon nitride, and for every non-hydrogen atom, count the σ-bonds. Note that double and triple bonds consist of one σ-bond together with one or two π-bonds: Identify those atoms with lone pairs: Find the steric number by adding the lone pair count to the number of σ-bonds: Consult the following chart to determine the hybridization from the steric number: steric number | hybridization 2 | sp 3 | sp^2 4 | sp^3 5 | dsp^3 6 | d^2sp^3 7 | d^3sp^3 Now assign the hybridization for each atom: Answer: | |

Chemical names and formulas

formula | Si_3N_4 Hill formula | N_4Si_3 name | silicon nitride alternate names | silicon nitride powder | trisilicon tetranitride mass fractions | N (nitrogen) 39.9% | Si (silicon) 60.1%
formula | Si_3N_4 Hill formula | N_4Si_3 name | silicon nitride alternate names | silicon nitride powder | trisilicon tetranitride mass fractions | N (nitrogen) 39.9% | Si (silicon) 60.1%