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• 11. Draw 1-chloro-1-propene in the correct geometry showing its orbitals.
How to draw the mechanism of Sn1 reaction for these substances? 1-bromobutane 2-bromobutane t-butylbromide 3-bromo-1-propene 3-chloro-1-propene bromomethyl benzene chloro methyl benzene bromobenzene
7. (4 pts) In the reaction of 1-chloro-l-phenylpropane with potassium 1-butoxide: a. Draw the arrows showing the flow of electrons for all bonds broken and all bonds formed during the reaction. b. In the labeled boxes, provide the structures of the Organic Product (containing carbon) that are formed from each specified conformation of 1-chloro-1-phenylpropane. CH H3- CH -OH K сн. OH H3C-+CHE 1-chloro-1-phenylpropane CHE Organic Product A IH CH, HCCHE OH к OH H3CCHE CHE 1-chloro-1-phenylpropane Organic Product B
5. Give the hybridization, electron pair geometry, and molecular geometry of the centrail atom(s) in the structures in question 3, 6. For any molecule in question 1 containing lone pair electrons on the central atom, look up and record the literature values for the bond angles of the molecular structure 7. Read the section on hybrid orbitals in your book. Explain how hybrid orbitals are formed using the sp' hybrid orbitals as the example. 8. Double and triple bonds also...
7) Draw the Lewis Dot Structure for NH,OH below, showing VSEPR molecular geometry. a) b) Draw charge vector arrows for any polar covalent bond in the molecule above: Is this molecule polar or non-polar? What is the most important IM force used by this molecule? c) 8) Draw the Lewis Dot Structure for SF, below, showing VSEPR molecular geometry. a) b) Draw charge vector arrows for any polar covalent bond in the molecule above: Is this molecule polar or non-polar?...
Draw the most stable chair conformation for trans-1-chloro-2-isopropylcyclohexane and please explain why its most stable Will Rate Correct Answers!!!!
For the molecule HNO3, 1) draw a lewis structure. 2) state the geometry of molecule (if it has more than one central atom, give each central atom's geometry. 3) State which hybrid orbitals would be expected for the central atom(s). 4) give the approximate(ideal) bond angle(s) for the central atom(s). 5) state if its polar or non-polar. A typed answer is prefered.
Draw a labelled diagram showing the atomic orbitals for N and O on each side and the molecular orbitals for NO, in the middle. The diagram should clearly show: which atomic orbitals combine to form each molecular orbital, the relative position (increasing energy going up the page) of the molecular orbitals and the locations of electrons in the atomic orbitals and in the molecular orbitals. Use your diagram to determine the following: What is the bond order? Explain how you...
7. Consider CO2. Draw the Lewis structure. hybridization: O: Molecular geometry: Sketch the molecule with its orbitals and indicate double and triple bonds. Are the lone pairs in the same plane? Number of pi bonds: Number of sigma bonds:
1. Sketch [Co(NH)JCI, showing its octahedral geometry, and the location of the ligands and counter ions. Label the bonds appropriately as covalent, coordinate covalent, and ionic.
1. Draw the following transition metal complexes in their correct molecular geometry and state the hybrid orbital involved in the bonding. Name the molecular geometry shape and label the bond angles to receive full credit. a) Zn(en)F2 b) [Mn(CN)6]4-