Draw the lewis Dot Structure for the following molecules- You can use S=N-A or not. Remember a) get the best structure using the octet rule (assume all atoms have to obey the octet rule) b) determine the formal charge on each atom c) identify the elements which can have an expanded octet (row 3 and below) d) Try to reduce formal charges by redistributing electrons from elements on the periphery (usually these do not have more than 8 electrons) to the inner atoms which can accommodate expanded octets. e) make sure only atoms which can accommodate expanded octets actually have expanded octets. f) Make sure only atoms which are m groups 2, 3 have less than 8 electrons in their valence shell. O_3 PF_5 N_2O_4 5F_4 H_2CO_3 H_2CO H_2SO_3 SO_4^-2 BF_3 AlH_4^-1 CH_3CH_2NH_2 H_2O HF 2. Determine the electron domain geometry for each of the above compounds. Determine the molecular geometry for each of the compounds in question 1 Determine the hybridization for each of the atoms in question 1 Which of the compounds in question 1 will have a dipole? (first determine if polar covalent bonds exist, then see if they reinforce or cancel each other out) Which of the compounds in question 1 exhibit hydrogen bonding? Which of the compounds in question 1 exhibit resonance. Which of the compounds in question 1 exhibit dispersion forces? For the following organic molecules, determine the number of pi bonds, number of n bonds, number of sp^3, sp^2, sp hybridzed atoms, number of lone pairs, electronic domain geometries and molecular geometries.