A model for BrF3 is shown in the Jmol window. BrF3 has T-shaped geometry. ball & stick✔-+ labels access important values if needed for this question. Rotate the molecule until you have a feeling for its three-dimensional shape. How many F atoms are bonded to the central Br atom? Are all of the positions about the central atom equivalent, or are there two kinds of positions? A T-shaped molecule can be derived from a trigonal bipyramidal molecule by removing two of the outer atoms. Would the atoms removed be both axial, both equatorial, or one of each? [ What approximate angle at the Br atom does the unique F atom make with either of the other two F atoms? degrees. For practice, type in the name of the geometry of the molecule:

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A model for BrF3 is shown in the Jmol window. BrF3 has T-shaped geometry. ball & stick ✔ - + labels Use the References to access important values if needed for this question. Rotate the molecule until you have a feeling for its three-dimensional shape. How many F atoms are bonded to the central Br atom? Are all of the positions about the central atom equivalent, or are there two kinds of positions? A T-shaped molecule can be derived from a trigonal bipyramidal molecule by removing two of the outer atoms. Would the atoms removed be both axial, both equatorial, or one of each? What approximate angle at the Br atom does the unique F atom make with either of the other two F atoms? ✓ degrees. For practice, type in the name of the geometry of the molecule: