Electronic geometry describes the arrangement of groups of electrons and molecular geometry describes the arrangement of atoms Explanation: The picture above explains it better, hope it helps you
Answer: The electronic geometry and the molecular geometry of the molecule are flat trigonal and curved or angular. Explanation: Formula used: where, V = number of valence electrons present on the central atom N = number of monovalent atoms bonded to the central atom C = charge of the cation A = charge of the anion We must now determine the hybridization of the given molecules. The given molecule is, The number of electron pairs is 3 which means the hybridization will be and the electronic geometry of the molecule will be planar trigonal. But since there are 2 atoms surrounding the central phosphorus atom, the third position will be occupied by lone pairs of electrons. The repulsion between the lone and bond electron pairs is greater and hence the molecular geometry will be curved or angular. Thus, the electronic geometry and the molecular geometry of the molecule are planar and curved or angular trigonal.
EG = planar trine. MG = Bent Polarity = Polar Explanation: We have the SO2 molecule. We can use the attached image to study this molecule: Electronic Geometry: This molecule has two oxygen atoms bonded to the S atom and one pair of electrons. The electron geometry should be trigonal planar as can be seen in the attached image. Molecular Geometry: As the oxygen bond will form an angle close to 120°, this molecule will present a V-shape or bent. Polarity: As we can see, if we have vectors to study the polarity of the molecule, the total sum will not be zero. This means that this molecule is polar. Finally, we can conclude: EG = planar trine. MG = Dual Polarity = Polar
H2O Curved tetrahedral electronic geometry CH2Cl2 Tetrahedral electronic geometry Tetrahedral molecular geometry OPCL3 Tetrahedral electronic geometry Tetrahedral molecular geometry CO3^2 Trigonal planar electronic geometry Trigonal planar molecular geometry ALCL6^3 Octahedral electronic geometry Molecular geometry – SO2 Octahedral tetrahedral electronic geometry Curved molecular geometry PCL5 Electronic geometry trigonal bipyramidal molecular geometry trigonal bipyramidal Explanation: Water contains four electronic domains, which corresponds to a tetrahedral electronic geometry. However, there are two lone pairs in the molecule, so it is bent. CH2Cl2 has a tetrahedral molecular geometry and a tetrahedral electronic geometry. This can only be observed from the structure of the compound. OPCL3 is attached to four groups, making it a tetrahedral molecule. There are non-lone pairs in phosphorus, so the molecule is not bent. CO3^2- is related to three groups which lead to a trigonal planar geometry. ALCL6^3- contains six bond groups that arrange at the corners of a regular octahedron at a bond angle of 90°. SO2 has four electron domains leading to a tetrahedral electron domain geometry according to valence shell electron pair repulsion theory. However, lone pairs on the central atom of the molecule lead to curved molecular geometry. PCL5 has five electron domains with no lone electron pairs on its central atom. Hence, the molecule has a bipyramidal trigonal geometry.
Hi! answer: eg c = octahedral, mg = planar square, sp3d2 Hope this helps!
Answer 6
Hybridization: sp Electronic geometry: linear Molecular geometry: linear Explanation: H₃CCCH can also be written as its Lewis structure which is shown in the attached figure. The figure shows that the central carbon atom forms a single bond with CH3 and a triple bond with CH. This means that the carbon hybridization is sp and the electronic and molecular geometry is linear with a bond angle of 180°.
Molecular geometry: Curved Polarity: Polar
Hydrogen bonding is the intermolecular force that holds water molecules together while ammonium ion molecule is held together by dipole-dipole interaction. The hydrogen bond is stronger than the dipole dipole interaction, so it requires a greater amount of heat energy to break the hydrogen bond that holds the water molecules together, which is why water has a point of boiling higher than the ammonium ion, even though they have the same molecular mass and electronic form.
Tetrahedral electronic geometry. … For the case of only two other atoms, the name “doubled” is used, as well as the molecular geometry involving two atoms bonded to a central atom with trigonal planar electronic geometry
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