6. (20 points) There are three non-equivalent resonance Lewis structures for the selenate ion, Se042. Draw...
PART II a) Draw all of the Lewis structures possible for the molecules below (resonance structures) and b) Indicate the formal charge on all of the atoms in your structures. Based on the formal charges, are the structures equivalent or not equivalent. If not determine the "best" resonance structure. (a) CO, (b) NO, (c) NO, (d) N,
4. (3 pts) The following is one Lewis structure for the Se042-ion (selenate ion). Draw three of the resonance structures for this ion (there are more than three possibilities). :O: 12- :0-Se-Ö: :Ő:
5. Draw the number of resonance structures indicated, your structures must fulfill the octet rule. This exercise serves to develop a sense of which Lewis Structures are reasonable so think whether what you are proposing makes sense. Assign formal charges and determine which structure is more likely, major contributor. Draw a box around this structure. Note: it is possible to have more than one major contributor. In that case, indicate these equivalent structures by drawing a box around all of...
For the cyanate ion (NCO), a. Draw three reasonable Lewis structures (i.e. resonance structures) that obey the octet rule. b. Calculate the formal charge for each element in each structure. Clearly show your work c. Clearly identify the most stable structure based on the formal charges calculated in part b. d. Explain the reason for the structure you selected as most stable.
Draw the Lewis structure (including resonance structures) for diazomethane (CH2N2). For each resonance structure, assign formal charges to all atoms that have formal charge. Draw the molecules by placing atoms on the canvas and connecting them with bonds. Include all lone pairs of electrons. Show the formal charges of all atoms in the correct structures.
Draw correct Lewis structures for SO3 and SO42-. Include at least three relevant resonance structures and indicate which atoms have formal charges in all resonance structures. Note: include the picture of the Lewis structures in your work, or attach an image of it using the HTML editor in this problem.
14. Draw Lewis structures for the following compounds. If they exhibit resonance, draw one other resonance structure for a total of two structures. b. NO a. ХеО,F, d. SO с. С.Н, f. KrF e. SCI, 15. Draw three resonance structures of NO, in which the atoms are arranged in the order NNO. Indicate the formal charges in each.
Draw the Lewis structure (including resonance structures) for methyl azide (CH3N3). For each resonance structure, assign formal charges to all atoms that have formal charge.
Nitromethane structures: Consider nitromethane (CH3NO2). Three reasonable lewis structures (resonance structures) can be drawn for this molecule. a. Draw each of the three most reasonable Lewis structures (two of them look almost identical to each other). b. Calculate the formal charges on C, N and O in each of your Lewis structures. c. Give the hybridization on each atom in each resonance structure. d. Will the geometry of the molecule change depending on which resonance structure is the dominant contributor...
a) Draw a Lewis structure including all resonance structures and nonzero formal charges for the isolated azide anion, N3- b) .Based on the Lewis structure, predict whether the two N-N bond lengths in the azide ion will be the same or different; if different, which one is longer; and whether the bond lengths are shorter or longer than those in N2 c) Draw a Lewis structure including all resonance structures and nonzero formal charges for hydrogen azide, HN3 d) Based...