First, draw one molecule and add the partial charges where needed - use the AEN to determine the types of bonds. Then, draw the second molecule so that the &+ on one molecule lines up across from the &- on the other. Since we can't draw the molecules here you will answer questions about the drawings that you made on the homework worksheet. BrClaF has one bond between the Br and F with AEN = and four bonds between the Br and Cl with a AEN = The central Br has 6 REDS and the molecule is symmetrical/asymmetrical (answer is ) making it a polar/nonpolar (answer is ) molecule. The central Br has a charge and the F has a charge. H20 has 2 bonds with a AEN = H20 has 4 REDS and is symmetrical/asymmetrical (answer is making it a polar/nonpolar (answer is molecule. Each H has a charge and the O has a charge. The strongest possible attractive force between these two molecules is c. ionic p. tetrahedral q. symmetrical j. 1.02 t. dipole-dipole f. 0.97 i. 0.94 I. diatomic a. nonpolar covalent n. pyramidal w. 8+ b. polar covalent d. polar e. nonpolar g. 0 h. 0.20 k. 1.24 o. planar trigonal x. 8- r. asymmetrical m. bent s. London's u. hydrogen bond v. ion-dipole y. no partial charge

Draw the attraction between a water molecule and a molecule of BrCl₄F.  Br is the central atom in an expanded octet - count your electrons carefully.

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First, draw one molecule and add the partial charges where needed - use the AEN to determine the types of bonds. Then, draw the second molecule so that the &+ on one molecule lines up across from the 8- on the other. Since we can't draw the molecules here you will answer questions about the drawings that you made on the homework worksheet. BRCI4F has one bond between the Br and E with AEN = and four bonds between the Br and Cl with a AEN = The central Br has 6 REDS and the molecule is symmetrical/asymmetrical (answer is ) making it a polar/nonpolar (answer is ) molecule. The central Br has a charge and the F has a charge. H20 has 2 bonds with a AEN = H20 has 4 REDS and is symmetrical/asymmetrical (answer is making it a polar/nonpolar (answer is molecule. Each H has a charge and the O has a charge. The strongest possible attractive force between these two molecules is b. polar covalent o. planar trigonal Х. 8- e. nonpolar f. 0.97 q. symmetrical I. diatomic a. nonpolar covalent n. pyramidal w. &+ c. ionic d. polar g. 0 h. 0.20 i. 0.94 j. 1.02 k. 1.24 m. bent p. tetrahedral r. asymmetrical s. London's t. dipole-dipole u. hydrogen bond v. ion-dipole y. no partial charge