Custom eBook for Organic Chemistry
2nd Edition
ISBN: 9798214171104
Author: Straumanis
Publisher: Cengage Custom
expand_more
expand_more
format_list_bulleted
Concept explainers
Question
Chapter 1, Problem 7CTQ
(a)
Interpretation Introduction
Interpretation:
The type of bonding electron domain should be identified for each molecule in given figure.
Concept Introduction:
The bonding electron domain is defined as the shared valence electrons (2, 4, or 6 electrons) which are localized between two core atoms.
This is classified as follows:
Single bond: two electrons or 1 pair;
Double bond: four electrons or 2 pairs;
Triple bond: six electrons or 3 pairs.
The non-bonding electron domain is defined as the pair of valence electrons which are not involved in bonding.
(b)
Interpretation Introduction
Interpretation:
The number of electrons present in each bonding electron domain should be reported.
Concept Introduction:
The bonding electron domain is defined as the shared valence electrons (2, 4, or 6 electrons) which are localized between two core atoms.
This is classified as:
Single bond: two electrons or 1 pair;
Double bond: four electrons or 2 pairs;
Triple bond: six electrons or 3 pairs.
The non-bonding electron domain is defined as the pair of valence electrons that are not involved in bonding.
Expert Solution & Answer
Want to see the full answer?
Check out a sample textbook solution
Students have asked these similar questions
TASK 1: COMPLETE ME!
Complete what is required at by the following table. Copy table in a separate sheet of
раper.
Polar Molecule or
Nonpolar Molecule
Bond
Central AEN Type of Bond
Atom
1. Sulfur
difluoride
SF2
2. Methane
CH4
3. Охуgen
O2
4. Ammonia
NH3
5. Hydrogen
sulfide
H2S
1) For each condensed or skeletal structure below:
A. Draw a complete Lewis structure. Note: show all non-bonding electron pairs.
B. Indicate the hybridization of all C, O, and N atoms in each of the molecules.
C.
Label each of the indicated bonds (marked by an arrow) as either a sigma or pi bond. (Note: Remember,
e.g. that a double bond is made up of both a o and a π bond). Also indicate which orbitals overlap to form
the bond (e.g., Ols-2sp3).
D.
For atoms having lone pairs in the molecules below, indicate in which orbitals the lone pairs are located.
E. Which of the bonds indicated by arrows is shorter?
a)
c) H
CH3
C=CHC=C-CH
g) (CH3)3CCN
CH3
CH₂CH=CHCECH
b)
d)
CH3
Lo
LOH
f) CH₂CH(CH3)SH
h) (CH3)2CH(CH₂)3Br
II. Problem solving.
1. Choose from each pair the one that will exhibit the given property to the greater extent
a. bond polarity
N-H
b. net number of lone pairs
NH3
c. bond length
CI-F
d. formal charge on N
e. net number of lone pairs
f. bond strength
g. bond polarity
h. bond length
electronegativity
i.
j. formal charge on O
NH4+
NH₂™
C-O
H-CI
N-N
O
H₂O
2. Draw the Lewis structures of the following then evaluate the formal charge
a. PBr3
b. CH3OH
B-F
CH4
F-F
NH3
NH₁+
C-N
H-F
N = N
CI
H3O+
C. NO₂¹¹
Chapter 1 Solutions
Custom eBook for Organic Chemistry
Ch. 1 - (E) What does the number (+Z) at the center of...Ch. 1 - Prob. 2CTQCh. 1 - Prob. 3CTQCh. 1 - Prob. 4CTQCh. 1 - Prob. 5CTQCh. 1 - Prob. 6CTQCh. 1 - Prob. 7CTQCh. 1 - You hear a student from a nearby group say that...Ch. 1 - Use VSEPR to explain why the HBH bond angle of BH3...Ch. 1 - Both the HCH and HCO bond angles of H2CO...
Ch. 1 - Prob. 11CTQCh. 1 - Consider the following flat drawing of methane...Ch. 1 - Use VSEPR to assign a value of (close to) 109.5,...Ch. 1 - A student draws the picture of ammonia (NH3) in...Ch. 1 - Prob. 15CTQCh. 1 - How many central atoms does the molecule H2NCH3...Ch. 1 - Indicate the bond angle and shape about each...Ch. 1 - Explain how there can be two kinds of bent:...Ch. 1 - A student makes the following statement: “The...Ch. 1 - A student who missed this class needs to know how...Ch. 1 - Prob. 1ECh. 1 - Prob. 2ECh. 1 - Consider the incomplete valence shell...Ch. 1 - How many valence electrons does a neutral a. K...Ch. 1 - Consider the molecules AlCl3 (aluminum chloride)...Ch. 1 - Draw an example of a bent molecule with a bond...Ch. 1 - Label each atom marked with an arrow with the...Ch. 1 - a model of each of the following molecules: a....
Knowledge Booster
Learn more about
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.Similar questions
- On the left side of Figure 3.6, label the areas shown with a dotted line where... one bond can form. one bond can form.arrow_forwardCheck the box next to each molecule on the right that has the shape of the model molecule on the left: molecules model (check all that apply) olo O C,H, О НОСІ You can drag the slider to rotate the model molecule. O CO, O N,H, O None of the above Note for advanced students: the length of bonds and size of atoms in the model is not necessarily realistic. The model is only meant to show you the general geometry and 3D shape of the molecule.arrow_forwardGive typed full explanation Look at figure 3-22 that shows the electron density that occurs abound the Si-O bond. This electron density map gives the "shape" of the O and Si atoms when they are bonded together. Think about the answer in Q9 and choose the best response below: (Select answer choice) a. This figure shows that the Si and O atoms, when they bond together, do not form spheres, which is due to the fact that the Si-O bond is strongly covalent and these shared electrons affect atomic shape. This change in shape limits the applicability of Pauling's Coordination principle since that principle is based on the geometry of perfect spheres. b. This figure shows that the Si and O atoms, when they bond together are close to perfect spheres, which is due to the fact that the Si-O bond is strongly covalent. This figure shows that Pauling's Coordination principle should apply very precisely to any substance that contains Si-O bonds c. This figure shows that the Si and O atoms, form in a…arrow_forward
- Check the box next to each molecule on the right that has the shape of the model molecule on the left: molecules model (check all that apply) O HNO O H,0 O H,S O HOCI You can drag the slide None of the above Note for advanced students: the length of bonds and size of atoms in the model is not necessarily realistic. The model is only geometry and 3D shape of the molecule.arrow_forwardCan you please check my work. (the structure is in the picture) A) What is the Chemical Formula and number of unshared electron PAIRS in the skeletal structure below? the chemical formula should be C6H15S2O3N and the number of unshared electron pairs is 6.B) Draw the Lewis Structure and for each bond in the molecule, indicate if the bond is polar or non-polar. Use the +-------> notation to show the direction of polarity (arrow pointing to δ-) for all polar bonds. For non-polar bonds, put NP in a small circle next to that bond. The only polar bonds should be between NH (point towards N), OH (point towards O), and SO (point towards S)arrow_forwardCheck the box next to each molecule on the right that has the shape of the model molecule on the left: molecules model (check all that apply) O CH,Cl, O CH,CI O CF4 You can drag the O BrF4 O None of the above Note for advanced students: the length of bonds and size of atoms in the model is not necessarily realistic. The model geometry and 3D shape of the molecule. toarrow_forward
- 7. Predict the polarity of 6 real molecules. First, draw the molecules and any bond dipoles. Then draw any molecular dipoles. Explain your reasoning before you check your predictions with the simulation.arrow_forwarda) Draw the Lewis structure for the molecule on the left (labeled as Molecule A above). Draw the Lewis structure which has minimum formal charges. b) Draw the correct Lewis structure for the molecule on the right (labeled as Molecule B above). Draw the Lewis structure which has minimum formal charges. c) Select the three TRUE statements from those provided below. The molecule on the right (Molecule B) is planar (all atoms lie within the same plane). The molecule on the left (Molecule A) is planar (all atoms lie within the same plane). The molecule on the right (Molecule B) has polar bonds. The molecule on the left (Molecule A) has polar bonds. We can distinguish between the two molecules (Molecule A and Molecule B) based upon their dipole moment.arrow_forward1. Molecule: CF4 indicate the number of available electrons that electrons ae = are in the molecule. in the space to the right connect all of the atoms to the central atom and then make each atom follow the octet rule Trial Structure: (duet rule for hydrogen). How many electrons are necessary in the trial ne = structure? Circle the correct ne = ae ne ae relationship between ne and ae. Draw the corrected Lewis Structure to the right. Add Later: e- geometry: molecular geOm Hybridization:arrow_forward
- What is delocalization energy? How is it related to resonance energy? Answer by selecting all true statements. 00 Resonance energy is a term used in VB theory. Resonance energy and delocalization energy are term that describe different conditions. Resonance energy is a term used in MO theory. Resonance energy and delocalization energy are essentially the same thing. Resonance energy and delocalization energy represent the additional stability associated with a spreading out of electron density. Delocalization energy is a term used in VB theory. Delocalization energy is a term used in MO theory. Resonance energy and delocalization energy represent the additional stability associated with concentrating electron density.arrow_forwardVC 2.12... VC Gra... VC Test... 8) Formula SiF4 G - Gr... VC Topi... Bond Polarity (AEN) Total Electrons Valence Loc... science.valenciacollege.edu a Your... V http... Rough Lewis Structure VC *We... (Include formal charges other than 0.) Molecule Polarity PHET Mol... VC Lab... V https://s... Molecular Geometry/ Electron-Group Geometry Molecular Geometry: Electron-Group Geo.: More soluble in hexane or water? b Ho... 6 Tough Low Structure Bond Polarity (EN) + SOCI... More beinarrow_forwardCheck the box next to each molecule on the right that has the shape of the model molecule on the left: molecules model (check all that apply) ? alo to O BrF O NH, You can drag the slider to rotate the model molecule. O CH,O O CF4 O None of the above Note for advanced students: the length of bonds and size of atoms in the model is not necessarily realistic. The model is only meant to show you the general geometry and 3D shape of the molecule.arrow_forward
arrow_back_ios
SEE MORE QUESTIONS
arrow_forward_ios
Recommended textbooks for you
Organic Chemistry: A Guided InquiryChemistryISBN:9780618974122Author:Andrei StraumanisPublisher:Cengage Learning
Organic Chemistry: A Guided Inquiry
Chemistry
ISBN:9780618974122
Author:Andrei Straumanis
Publisher:Cengage Learning