The Lewis structures of methane, the carbonate ion, carbon dioxide, and the sulfite ion are given.
Predict the molecular shape of methane.
linear
tetrahedral
trigonal pyramidal
trigonal planar (120°)
bent
Predict the molecular shape of the carbonate ion.
trigonal planar (120°)
tetrahedral
bent
linear
trigonal pyramidal
Predict the molecular shape of carbon dioxide.
trigonal pyramidal
linear
trigonal planar (120°)
tetrahedral
bent
Predict the molecular shape of the sulfite ion.
bent
trigonal planar (120°)
linear
tetrahedral
trigonal pyramidal
The Lewis structures of methane, the carbonate ion, carbon dioxide, and the sulfite ion are given.
Predict the molecular shape of methane, the carbonate ion, carbon dioxide, and the sulfite ion. Methane, CH4: Carbon dioxide, CoO bent O bent O trigonal pyramidal O tetrahedral O trigonal planar (120") O linear Gc? |O trigonal pyramidal O tetrahedral O trigonal planar (120) O linear Carbonate ion, CO32-: | 0 Sulfite ion, SO,bent bent O trigonal pyramidal O trigonal pyramidal O tetrahedral O trigonal planar (120) O: tetrahedral : O , trigonal planar (120) O linear O linear
Predict the molecular shape of methane, the carbonate ion, carbon dioxide, and the sulfite ion. Predict the molecular shape of methane, the carbonate ion, carbon dioxide, and the sulfite ion.
Draw the best Lewis structure, and resonance contributors of equal energy (if any), for the molecule XeOF4. Answer the following questions based on your Lewis structure(s). 1- draw Lewis structure 2. Select the VSEPR shape that best describes the shape about the central atom Xe in this molecule/ion? Linear Trigonal Planar Tetrahedral Trigonal Bipyramidal Octahedral 3. Select the molecular shape that best describes the shape about the central atom Xe in this molecule/ion. Linear Bent (109.5) Bent (120) Trigonal Planar...
Predict the molecular shape for a germanium A. dioxide molecule B. trigonal pyramidal C. tetrahedral D. trigonal planar E. bent F. linear
Identify the molecular geometry around the central atom for carbon dioxide, CO2 tetrahedral linear trigonal planar trigonal pyramidal bent Does carbon dioxide contain polar covalent bonds (bond dipoles)? no yes Does carbon dioxide contain a net dipole?
Lewis Structures and Molecular Mo C. Build the models and give the shape for each. Shape Angular or bent Hydrogen sulfide trigonal pyramidal H-P-H H Phosphine Angular or bent -0-0- Ozone HC-c-H HaH Ethylene Shape around carbon bent Shape around carbon bent HO: H-C-C-H ai Acetaldehyde Shape around carbon @ tetrahedral Shape around carbon trigonal plane
From the given Lewis structure and what you know about VSEPR theory, identify the shape of the molecule. х- -X trigonal bipyramidal bent T-shaped square planar linear octahedral tetrahedral trigonal planar trigonal pyramidal square pyramidal see-saw OOO O O O O
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...
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...
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...