/*! This file is auto-generated */ .wp-block-button__link{color:#fff;background-color:#32373c;border-radius:9999px;box-shadow:none;text-decoration:none;padding:calc(.667em + 2px) calc(1.333em + 2px);font-size:1.125em}.wp-block-file__button{background:#32373c;color:#fff;text-decoration:none} Problem 42 How many pi bonds and sigma bond... [FREE SOLUTION] | 91Ó°ÊÓ

91Ó°ÊÓ

Log out

Learning Materials

Features

Discover

Chapter 10: Problem 42

How many pi bonds and sigma bonds are there in the tetracyanoethylene molecule?

Short Answer

Expert verified
There are 9 pi bonds and 7 sigma bonds present in a tetracyanoethylene molecule.

Step by step solution

01

Understand the Molecule

Tetracyanoethylene is a molecule with the formula (C2N2)2. It consists of two carbon (C) atoms in the center and four cyano groups (CN) attached to the carbon atoms. Each cyano group consists of 1 carbon atom and 1 nitrogen atom (N). Thus overall, the molecule has four Carbon atoms and four Nitrogen atoms.
02

Analyze the molecule

Carbon in the cyano group forms a triple bond with the Nitrogen atom. In a triple bond, one bond is a sigma bond, and the other two are pi bonds. Furthermore, the central carbon atoms form a double bond. A double bond consists of one sigma bond and one pi bond.
03

Calculations

There are four instances of a triple bond in the molecule (each of them in a CN group). Hence, the number of pi bonds in the molecule is 4*2 = 8. Moreover, the double bond in the center contributes one more pi bond, thus the total pi bonds would be 8 + 1 = 9. As for sigma bonds, there are four instances of a triple bond, contributing 4 sigma bonds and the double bond in the center contributes one more sigma bond. The connection between the two central carbon atoms and the neighboring carbon atoms of the cyano groups gives additional 2 sigma bonds. Hence the total number of sigma bonds is 4 + 1 + 2 = 7.

Unlock Step-by-Step Solutions & Ace Your Exams!

  • Full Textbook Solutions

    Get detailed explanations and key concepts

  • Unlimited Al creation

    Al flashcards, explanations, exams and more...

  • Ads-free access

    To over 500 millions flashcards

  • Money-back guarantee

    We refund you if you fail your exam.

Over 30 million students worldwide already upgrade their learning with 91Ó°ÊÓ!

One App. One Place for Learning.

All the tools & learning materials you need for study success - in one app.

Get started for free

Most popular questions from this chapter

How is the geometry of a molecule defined and why is the study of molecular geometry important?

Draw a potential energy curve for the bond formation in \(\mathrm{F}_{2}\).

Acetylene \(\left(\mathrm{C}_{2} \mathrm{H}_{2}\right)\) has a tendency to lose two protons \(\left(\mathrm{H}^{+}\right)\) and form the carbide ion \(\left(\mathrm{C}_{2}^{2-}\right),\) which is present in a number of ionic compounds, such as \(\mathrm{CaC}_{2}\) and \(\mathrm{MgC}_{2}\). Describe the bonding scheme in the \(\mathrm{C}_{2}^{2}-\) ion in terms of molecular orbital theory. Compare the bond order in \(\mathrm{C}_{2}^{2-}\) with that in \(\mathrm{C}_{2}\)

In the trigonal bipyramidal arrangement, why does a lone pair occupy an equatorial position rather than an axial position?

Use valence bond theory to explain the bonding in \(\mathrm{Cl}_{2}\) and \(\mathrm{HCl}\). Show how the atomic orbitals overlap when a bond is formed
See all solutions

Recommended explanations on Chemistry Textbooks

Inorganic Chemistry

Read Explanation

Chemical Reactions

Read Explanation

Organic Chemistry

Read Explanation

The Earths Atmosphere

Read Explanation

Kinetics

Read Explanation

Ionic and Molecular Compounds

Read Explanation
View all explanations

What do you think about this solution?

We value your feedback to improve our textbook solutions.

Study anywhere. Anytime. Across all devices.