using VSEPR THEORY SHOW WHY 1)BF4- is a tetrahedral molecule

using VSEPR THEORY SHOW WHY1)BF4- is a tetrahedral molecule 2)SF3+ is a Trigonal pyramidal molecule 3)ICI4- IS A SQUARE PLANER
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2. asked by rebecca
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using VSEPR THEORY SHOW WHY1)BF4- is a tetrahedral molecule 2)SF3+ is a Trigonal pyramidal molecule 3)ICI4- IS A SQUARE PLANER
1. 1 answer
2. asked by rebecca
3. 1,245 views
using VSEPR THEORY SHOW WHY1)BF4- is a tetrahedral molecule 2)SF3+ is a Trigonal pyramidal molecule 3)ICI4- IS A SQUARE PLANER
1. 2 answers
2. asked by rebecca
3. 733 views
using VSEPR THEORY explain why1)BF4- is a tetrahedral molecule 2)SF3+ is a Trigonal pyramidal molecule 3)ICI4- IS A SQUARE
1. 2 answers
2. asked by rebecca
3. 1,752 views
using VSEPR THEORY explain why1)BF4- is a tetrahedral molecule 2)SF3+ is a Trigonal pyramidal molecule 3)ICI4- IS A SQUARE
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2. asked by laura
3. 520 views
According to VSEPR theory, a molecule of methane, a greenhouse gas with a chemical formula of CH4 would most likely have the
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2. asked by n
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VSEPR theory predicts that the geometry of AsH3 molecule is which of the following.linear trigonal planar trigonal pyramidal
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2. asked by Lisa
3. 5,174 views
Although the VSEPR theory is correct in predicting that CH4 is tetrahedral, NH3 is trigonal pyramidal,and H2O is bent, the HNH
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2. asked by Dani
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According to VSEPR theory, how should the molecular shape of AsF3 be classified?(1 point) Responses tetrahedral, because the
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2. 24 views
The Lewis dot structure of ammonia, NH3, reveals that it has one lone pair of electrons and three bonds (each to a hydrogen)
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2. asked by luck
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