Below are two sets of resonance structures. Where applicable provide the missing curved arrow notation, lone...
Assign formal charges to the atoms in these three structures (only necessary for atoms with nonzero formal charge). Do not add or delete bonds or electrons, except where indicated. Assume that all unshared valence electrons are shown but overall charges are not. Add formal charges to CH3 Add formal charges to CH3 . Note the presence of the lone pair. Add a lone pair to NH3. Add a formal charge, if applicable. Which atoms have a complete octet? The C in CH3 without the lone pair. The...
Below is the Sn2 reaction between iodomethane and cyanide (CN). Draw the missing curved arrow notation. Add lone pairs of electrons and nonzero formal charges. ✓ 1st attempt W See Periodic Table D See Hint Nec H—• — N=C—¢-H 10 i Draw the missing curved arrow notation. Add lone pairs of electrons and nonzero formal charges.
Below is the Sn1 reaction between bromocyclohexane and iodide (1). Draw the missing curved arrow notation in the first and second boxes to reflect electron movements. In all boxes, add lone pairs of electrons and nonzero formal charges. 2nd attempt See Periodic Table See Hint Draw in the missing curved arrow notation. Add lone pairs of electrons and nonzero formal charges.
Question 7 of 21 (1 point) × Incorrect X incorrect Xincorrect ×Incorrect ×Incorrect ×Incorrect- CH3 Did you draw only curved arrows in the first three boxes? Did you draw a structure in the two empty boxes? Do not delete or add any atoms, bonds, or lone pair electrons Does each curved arrow start at an electron-rich atom or bond? Do the structures contain the correct valence, lone pair electrons, and nonzero formal charges? + HOCH2CH3 H3C. C Try Again View...
i need steps 3.4,6 please 11. 20/19 23 Question See page 1062 points) Provide the missing curved arrows and structures to complete the mechanism of the Fischer esterification. Your structures should indude all nonzero formal charges and one pairs of electrons. The reagents you need for each mechanistic step are provided in each box. 29th attempt See Periodic Table See Hint op Draw the organic intermediate with lone pair electrons and non-zero formal charges. Add the curved arrow notation.
Draw the missing curved arrow notation for the bimolecular elimination (E2) step shown below. Include all lone pairs and nonzero formal charges. Draw the missing curved arrow notation for the following bimolecular elimination (E2) step.
Need help with box 4 & box 5 Was a curved arrow drawn for each of the bonding transformations? Do all curved arrows start at an electron-rich site and point toward an electron-poor site? Did you add nonzero charges and lone pair electrons to all appropriate atoms? Does the overall charge and number of atoms remain consistent from step to step? To bring a box back to its original status, click on the reset button in the top left corner...
fill in the missing lone pair electrons (all formal charges are shown). Draw 2 additional resonance structures for the compound including any lone pair electrons and formal charges OO
5. Resonance provides the basis for a large portion of organic chemistry and helps us identify sites of high and low electron density. We will see that the electron source (nucleophile) is attracted to the site of electron sinks or deficiency (electrophile). For the following, draw the curved arrow that shows the movement of electrons that takes you from one resonance structure to the other. Remember to always start your arrow at the source of electrons (r-bond or lone pair)....
Below is the E1 reaction between t-butyl chloride and water (H20). Draw the missing curved arrow notation in the first and second boxes to reflect electron movements. In all boxes, add lone pairs of electrons and nonzero formal charges. 1st attempt hd See Periodic Table Q See Hint CI CI CI Draw the missing curved arrow notation. Add lone pairs of electrons and nonzero formal charges.