Concept explainers
(a)
Interpretation:Thegeometry of each internal atom in given resonance structures of
Concept Introduction: Lewis dot structure is also known as Lewis dot formula or electron dot structure. The bond formation between the atoms takes place due to the sharing of valence electrons of bonded atoms while the remaining electrons present in outer shell represented as lone pair of electrons.
The resonance is the phenomenon in which if all the properties cannot explain by one structure, it can be shown in two or more structures by the shifting of pi bonds or lone pair but there is no change in sigma bond and position of atoms.
In the different resonance structures, hybridization gives idea about the geometry of each atom. It can be checked with the below formula:
Hybridization = Number of sigma bonds + Number of lone pairs on bonded atoms.
(b)
Interpretation:Thegeometry of each internal atom in given resonance structures of
Concept Introduction: Lewis dot structure is also known as Lewis dot formula or electron dot structure. The bond formation between the atoms takes place due to the sharing of valence electrons of bonded atoms while the remaining electrons present in outer shell represented as lone pair of electrons.
The resonance is the phenomenon in which if all the properties cannot explain by one structure, it can be shown in two or more structures by the shifting of pi bonds or lone pair but there is no change in sigma bond and position of atoms. In the different resonance structures, hybridization gives idea about the geometry of each atom. It can be checked with the below formula:
Hybridization = Number of sigma bonds + Number of lone pairs on bonded atoms.
(c)
Interpretation:Thegeometry of each internal atom in given resonance structures of
Concept Introduction: Lewis dot structure is also known as Lewis dot formula or electron dot structure. The bond formation between the atoms takes place due to the sharing of valence electrons of bonded atoms while the remaining electrons present in outer shell represented as lone pair of electrons.
The resonance is the phenomenon in which if all the properties cannot explain by one structure, it can be shown in two or more structures by the shifting of pi bonds or lone pair but there is no change in sigma bond and position of atoms. In the different resonance structures, hybridization gives idea about the geometry of each atom. It can be checked with the below formula:
Hybridization = Number of sigma bonds + Number of lone pairs on bonded atoms.
(e)
Interpretation:Thegeometry of each internal atom in given resonance structures of
Concept Introduction: Lewis dot structure is also known as Lewis dot formula or electron dot structure. The bond formation between the atoms takes place due to the sharing of valence electrons of bonded atoms while the remaining electrons present in outer shell represented as lone pair of electrons.
The resonance is the phenomenon in which if all the properties cannot explain by one structure, it can be shown in two or more structures by the shifting of pi bonds or lone pair but there is no change in sigma bond and position of atoms. In the different resonance structures, hybridization gives idea about the geometry of each atom. It can be checked with the below formula:
Hybridization = Number of sigma bonds + Number of lone pairs on bonded atoms.
(f)
Interpretation:Thegeometry of each internal atom in given resonance structures of
Concept Introduction: Lewis dot structure is also known as Lewis dot formula or electron dot structure. The bond formation between the atoms takes place due to the sharing of valence electrons of bonded atoms while the remaining electrons present in outer shell represented as lone pair of electrons.
The resonance is the phenomenon in which if all the properties cannot explain by one structure, it can be shown in two or more structures by the shifting of pi bonds or lone pair but there is no change in sigma bond and position of atoms. In the different resonance structures, hybridization gives idea about the geometry of each atom. It can be checked with the below formula:
Hybridization = Number of sigma bonds + Number of lone pairs on bonded atoms.
(g)
Interpretation:Thegeometry of each internal atom in given resonance structures of
Concept Introduction: Lewis dot structure is also known as Lewis dot formula or electron dot structure. The bond formation between the atoms takes place due to the sharing of valence electrons of bonded atoms while the remaining electrons present in outer shell represented as lone pair of electrons.
The resonance is the phenomenon in which if all the properties cannot explain by one structure, it can be shown in two or more structures by the shifting of pi bonds or lone pair but there is no change in sigma bond and position of atoms. In the different resonance structures, hybridization gives idea about the geometry of each atom. It can be checked with the below formula:
Hybridization = Number of sigma bonds + Number of lone pairs on bonded atoms.
(h)
Interpretation:Thegeometry of each internal atom in given resonance structures of
Concept Introduction: Lewis dot structure is also known as Lewis dot formula or electron dot structure. The bond formation between the atoms takes place due to the sharing of valence electrons of bonded atoms while the remaining electrons present in outer shell represented as lone pair of electrons.
The resonance is the phenomenon in which if all the properties cannot explain by one structure, it can be shown in two or more structures by the shifting of pi bonds or lone pair but there is no change in sigma bond and position of atoms.
In the different resonance structures, hybridization gives idea about the geometry of each atom. It can be checked with the below formula:
Hybridization = Number of sigma bonds + Number of lone pairs on bonded atoms.
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Chapter 1 Solutions
Organic Chemistry: Structure and Function
- Please fill in the blank ! In part B, the difference is that the molecules have more than one atom with two or more attached neighbors. As molecules become larger and more complex, VSEPR theory does not attempt to create names for the overall geometries that result. Instead, we continue to consider the geometry about one central atom at a time. By giving the arrangement about each such atom in the larger structure, we can generate enough information to develop an overall picture. Thus, in your report for part B, you should determine which atoms have more than one bound neighbor, then repeat the procedure for part A. When deciding whether the molecules in part B are polar or nonpolar, focus on the molecule as a whole, not the geometry about a single atom. If the molecule is polar, draw a dipole arrow on your sketch indicating polarity.arrow_forwardWhat kind of orbitals are overlapping in bond A indicated below? A NH₂ H * CH3 o bond: overlap of sp³ orbital on C and sp² orbital on N bond: overlap of sp³ orbital on C and sp² orbital on N o bond: overlap of sp² orbital on C and sp² orbital on N bond: overlap of p orbital on C and p orbital on N o bond: overlap of sp² orbital on C and sp² orbital on N bond: overlap of sp² orbital on C and sp² orbital on Narrow_forwardii. Which one is stable, AlH3 or Al2H6 and why?arrow_forward
- Vanillin, the molecular structure above, is an interesting organic molecule. From the structure, answer the following questions and post them in the indicated submission box. What is the molecular formula of this compound? How many functional groups does this molecule have? Write the names of all the functional groups present in vanillin. Write the line-bond structures of all the functional groups present in vanillin. What orbitals are involved in forming the following bonds in vanillin? C=O O-CH3 C=C O-Harrow_forwardThe Lewis structures of methane, the carbonate ion, carbon dioxide, and the sulfite ion are given. Methane, CH4 Carbonate ion, CO²- Carbon dioxide, CO₂ Sulfite ion, SO3- H H-3-H -I :0= C Predict the molecular shape of methane. bent linear tetrahedral O trigonal planar (120°) O trigonal pyramidal 0: Predict the molecular shape of carbon dioxide. 0=c=0 Predict the molecular shape of the carbonate ion. bent :0: tetrahedral linear trigonal planar (120°) trigonal pyramidal Predict the molecular shape of the sulfite ion.arrow_forward2. In measurements of the structure of molecules, some interesting trends are observed. The bond angle (H-C-H) in CH4 is 109°, as we would expect for a molecule in the tetrahedral VSEPR class. However, other molecules in the same VSEPR class, such as ammonia (NH3, H-N-H= 107°) and water (H2O, H-O-H = 105°), have smaller bond angles than expected. Explain the basis for the bond angle trend: CH4 > NH3 > H2O. %3Darrow_forward
- Draw the Lewis structure of AsO³- showing all lone pairs. Select Draw Rings More ||||||||| As G Erase Q2 Q 3- Identify the molecular geometry of AsO³. 4 see-saw O T-shaped tetrahedral octahedral linear square pyramidal trigonal planar trigonal pyramidal bent square planar O trigonal bipyramidalarrow_forwardThe carbon atoms in the molecule below are labeled 1-8. Which C-C-C bond angle in the molecule would be approximately 120?arrow_forwardQuestions 6a, b, c, d is linked to one another and focus on the molecule shown below. H ба) Before we can start assigning hybridization, we need to correctly assign our VSEPR electron-pair geometries to each central atom. For each of the chosen central atom, match it with it's corresponding electron-pair geometry. Drag and drop options on the right-hand side and submit. For keyboard navigation. SHOW MORE V C1 trigonal planar c C2 linear O N1 tetrahedral C trigonal pyramidal N 01 tetrahedral N trigonal planar o Bent O tetrahedral O :0: :0= II II I-0 - -I I-z: Iarrow_forward
- Why is it less clear to see the electrons on HBrO2 molecular electron geometry than it is on something like H2O? I know there should be 20 electrons on HBrO2, but this leads me to an incorrect drawing. And with the correct drawing, I don't see where all the electrons are. It seems like there's only 10 total. What am I missing here?arrow_forward1. Calculate the formal charge on the labeled atoms (bold-faced). Predict hybridization of those atoms as well. All non-bonding electrons are shown. 4-3= 1+ Spå ÇH3 H3C CH3 3-4=E1 sp3 F BF 6-5 = 1+ :OH spa H3C CH3arrow_forwardStreptimidone is an antibiotic whose structure is shown below. Specify the configurations around carbons a and b, respectively. ... ОН `NH a A) S, R S, S R, S D) R, R Last sauarrow_forward
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