19. СH,CI, 20. C,H,Cl, 21. CH,COОH 22. (CH,),СО 23. СоНо ring isomer 24. HNO3

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19. CH,Cl, 20. C,H,Cl, 21. CH,COОН 22. (СH,),СO 23. C,H, ring isomer 24. ΗΝο,

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1. Use the software to translate your Lewis Dot Structures into a 3D model image. o For molecules 1- 18 use the modeling simulator modeling simulator by Phet (University of Colorado). o For molecules 19-24 use the modeling builder model builder by MolView. o The links to the software are provided in the attachment. You will be using 2 different websites, depending on the molecule. You have to click around and explore and figure out how to use the software. Give it a go, but ask me if you need help! 2. Draw the 3D picture for each molecule. You must draw the molecule in 3 dimensions; make sure your 3 dimensional picture looks like the 3D model image. You do not have to be an artist, but the 3D drawing must have the correct Bond Angles and Shape. You may use balls and sticks or atoms and wedges (use what we learned in lecture to help you). 3. For each 3D image, state the following: o State the bond angles o State the electron geometry and molecular geometry o FYI -- This doesn't apply for diatomic molecules, because there is no bond angle..you can't have an angle with only 2 atoms! 4. Indicate the overall polarity of the molecule (molecular dipole moment). Use a single arrow to indicate the overall polarity of the molecule on the 3D structure. Make sure your answer is clear (for example, use a different color). 5. Assign a hybridization to each central atom in the molecule (not just the carbons). Be sure you count all the electron groups when you assign hybridization.