Draw the Lewis structure for AsH₃, then answer the following questions:
A. How many valence electrons does this compound have?
B. How many bonded electrons does this compound have?
C. How many lone pairs of electrons does this compound have?
D. How many single bonds does this compound have?
E. How many double bonds does this compound have?
F. What is the electron group arrangement {aka electron pair geometry}(enter one of the following: linear, trigonal planar, tetrahedral, trigonal bipyramidal, octahedral)?
G. What is the molecular geometry {aka shape} (enter one of the following: linear, trigonal planar, tetrahedral, trigonal pyramidal, bent, trigonal bipyramidal, seesaw, T-shaped, octahedral, square pyramidal, square planar)?
H. Predict the approximate bond angle (enter e.g. 90, 109.5, 120, 180, <109.5, >109.5)
Draw the Lewis structure for AsH₃, then answer the following questions:
Draw the Lewis structure for PCl₆-, then answer the following questions: A. How many valence electrons does this compound have? B. How many bonded electrons does this compound have? C. How many lone pairs of electrons does this compound have? D. How many single bonds does this compound have? E. How many double bonds does this compound have? F. What is the electron group arrangement {aka electron pair geometry} (enter one of the following: linear, trigonal planar, tetrahedral, trigonal bipyramidal, octahedral)? G. What is the molecular geometry {aka...
10.) Specify the electron-domain geometry for the following two species using the VSEPR model: XeCl4 and IO4−. For each species, predict the bond angles based on the electron-domain geometry. (a) XeCl4 geometry: linear trigonal planar bent tetrahedral trigonal pyramidal trigonal bipyramidal seesaw T-shaped octahedral square pyramidal square planar pentagonal bipyramidal pentagonal pyramidal pentagonal planar bond angle: 60° 72° 90° 109.5° 120° 180° (b) IO4− geometry: linear trigonal planar bent tetrahedral trigonal pyramidal trigonal bipyramidal seesaw T-shaped octahedral square pyramidal square...
According to VSEPR theory, XeO3 has how many regions of electron density around the central atom (how many electron groups?) (enter a number from 1 to 6) ? XeO3 will have (linear, trigonal planar, tetrahedral, trigonal pyramidal, bent, trigonal bipyramidal, seesaw, T-shaped, octahedral, square pyramidal, square planar) electronic geometry, and (linear, trigonal planar, tetrahedral, trigonal pyramidal, bent, trigonal bipyramidal, seesaw, T-shaped, octahedral, square pyramidal, square planar) molecular geometry. Draw the best Lewis structure using formal charge information. How many single...
Specify the electron-domain geometry for the following two species using the VSEPR model: KrCl4 and BrO4. For each species, predict the bond angles based on the electron-domain geometry. (a) KrCl4 geometry linear trigonal planar bent tetrahedral trigonal pyramidal trigonal bipyramidal T-shaped octahedral square pyramidal square planar pentagonal bipyramidal pentagonal pyramidal pentagonal planar bond angle: 72° 109.5° 120 180° (b) Br04 geometry: inear trigonal planar bent tetrahedral trigonal pyramidal trigonal bipyramidal seesaW T-shaped octahedral square pyramidal square planar pentagonal bipyramidal pentagonal...
Using VSEPR theory, a molecule with the general formula AX E# (A is the central atom, Xis the bonded atom and E is a lone pair of electrons), how many regions of electron density around the central atom in AX E? [Select] AX2E will have what kind c [Select] AX2E will have what kind a w N o Question 10 1 pts V Which of the following mo 5 1 of the atoms 5:35 PM Using VSEPR theory, a molecule...
Provide the correct molecular geometry for (a), given the number of lone pairs and bonding groups on the central atom. trigonal planar octahedral trigonal bipyramidal trigonal pyramidal square pyramidal tetrahedral seesaw bent linearProvide the correct molecular geometry for (b), given the number of lone pairs and bonding groups on the central atom. trigonal bipyramidal square pyramidal bent tetrahedral trigonal planar seesaw trigonal pyramidal octahedral linear Provide the correct molecular geometry for (c), given the number of lone pairs and bonding groups on the...
Draw the Lewis structure for ICl5 and answer the following questions.How many valence electrons are present in this compound?How many bonding electrons are present in this compound?How many lone pair (non-bonding) electrons are present in this compound?Is ICl5a polar or non-polar compound? What is the geometry of ICl5? What is the shape of ICl5? What are the approximate bond angles made by the atoms in this structure? Select all that apply. What, if anything, is wrong with each of the following structural...
Draw the Lewis structure of CIBr, showing all lone pairs. Identify the molecular geometry of CIBry Select Draw Rings More Erase tetrahedral see-saw bent trigonal pyramidal T-shaped O linear octahedral trigonal planar O square pyramidal trigonal bipyramidal square planar What are the approximate bond angles in CIBr,? A CIBr, molecule is O polar. Ononpolar. 90° 109.5 120 180
VSEPR theory predicts which shape for the molecular structure of the following molecules or molecular ions? (i.e. the arrangement of only the bonded atoms about the central atom) bent (or angular) linear octahedral see-saw square planar square pyramidal tetrahedral trigonal bipyramidal trigonal planar trigonal pyramidal T-shaped ICl3 molecule (The central atom is I.) bent (or angular) linear octahedral see-saw square planar square pyramidal tetrahedral trigonal bipyramidal trigonal planar trigonal pyramidal T-shaped IO4- ion (The central atom is I.) bent (or angular) linear...
9.) Using the VSEPR model, identify the molecular geometry of nitrogen triiodide, NI3, based on the number of electron domains. **PICK ONE** linear trigonal planar bent tetrahedral trigonal pyramidal trigonal bipyramidal seesaw T-shaped octahedral square pyramidal square planar