Question

The hybridization of the nitrogen and the triple-bonded carbon are sp giving linear geometry (ccn are _______) and a bond angle around the triple-bonded carbon of 180. The ch3 carbon is sp3 hybridized,trigonal planar geometry, with bond angles about 109.

Answer 1

Answer:

sp3 and linear geometry

Explanation:

hope the answer will help you

Answer 2

QUESTION:-

The hybridization of the nitrogen and the triple-bonded carbon are sp giving linear geometry (ccn are _______) and a bond angle around the triple-bonded carbon of 180. The ch3 carbon is sp3 hybridized, trigonal planar geometry, with bond angles about 109.

ANSWER:-

• The hybridization of the nitrogen and the triple-bonded carbon are sp giving linear geometry (ccn are linear) and a bond angle around the triple-bonded carbon of 180. The ch3 carbon is sp3 hybridized, trigonal planar geometry, with bond angles about 109.

• Linear is the answer to the blank

EXPLANATION:-

• Hybridization is interpreted as the phenomenon of mixing of orbitals. The atomic orbitals combine together to form the hybridized orbital which is additionally stabilized retaining less energy.

• The hybridization of the carbon atom bonded with another atom with triple bond is sp.

• The hybridization of a nitrogen atom which is bonded with another atom to a three bond is also sp.

• The hybridization of carbon atoms individually bonded to three hydrogen atoms by a single bond is sp³.

• The shape of the sp³ hybrid orbital is trigonal planar geometry with a bond angle of 109∘, sp hybrid orbital is linear with a bond angle of 180∘.

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