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What is the molecular geometry for CO3?
Carbon trioxide?..or Carbonate with a 2-? If Carbonate, then it is trigonal planar.
Molecular geometry of CO3 2?
The molecular geometry of the compound CO32- is trigonal planar. It has a single atom of carbon bound to three atoms of oxygen.
What is the electron geometry and molecular geometry of ocn?
The electron geometry of OCN⁻ (cyanate ion) is trigonal planar, as it has three regions of electron density around the central carbon atom: one double bond to oxygen and a single bond to nitrogen, along with a lone pair of electrons. The molecular geometry is also trigonal planar because the lone pair does not affect the shape in this case, allowing for the same arrangement of the bonded atoms.
What are the approximate bond angles for h2cO?
In formaldehyde (H₂C=O), the carbon atom is sp² hybridized, resulting in a trigonal planar geometry around the carbon. The approximate bond angles in this molecule are around 120 degrees. The oxygen atom also contributes to this planar arrangement, with the hydrogen atoms positioned symmetrically around the carbon atom.
What is the shape of CH3CO2H?
The shape of acetic acid (CH3CO2H) is primarily determined by its molecular geometry, which includes a central carbon atom bonded to three hydrogen atoms and one carboxyl group (COOH). The carboxyl group exhibits a planar structure due to the double bond between carbon and oxygen, resulting in a trigonal planar arrangement around the carbon atom of the carboxyl group. Overall, the molecule can be considered as having a combination of tetrahedral geometry around the methyl group (CH3) and a planar structure around the carboxyl group.
Why the geometry around the carbon in an ester is trigonal planar?
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What is the molecular geometry of C4H8?
The molecular geometry of C4H8 (butene) is trigonal planar. Each carbon atom is sp2 hybridized, with a bond angle of around 120 degrees between each carbon atom.
What is the Electronic geometry of Benzene?
The electronic geometry of benzene is trigonal planar. This is because benzene has a hexagonal ring structure with alternating double bonds. Each carbon atom in the ring is sp2 hybridized, leading to a trigonal planar arrangement around each carbon atom.
Is ch2 ch cl trigonal planor?
Yes, CH2Cl2 (dichloromethane) has a trigonal planar molecular geometry around the central carbon atom. This is because the carbon atom is surrounded by three regions of electron density, which results in a trigonal planar shape.
What is the geometry of the methyl cation?
The geometry of the methyl cation is trigonal planar, with the carbon atom at the center and three hydrogen atoms arranged in a flat, triangular shape around it.
Ch2cchch3 the carbons are numbered from one to four left to right what is the molecular geometry of carbon 3 what is the hybridization of carbon 4 what are the bond angles of carbon 2?
The molecular geometry of carbon 3 in ch2cchch3 is trigonal planar. The hybridization of carbon 4 is sp3. The bond angles around carbon 2 are approximately 120 degrees.
What is the electron pair geometry for CO3 -2?
carbonate ion is having trigonal planar geometry
What is the molecular geometry for CO3?
Carbon trioxide?..or Carbonate with a 2-? If Carbonate, then it is trigonal planar.
Molecular geometry of CO3 2?
The molecular geometry of the compound CO32- is trigonal planar. It has a single atom of carbon bound to three atoms of oxygen.
How many bonding clouds does CO have?
Carbon monoxide (CO) has 3 bonding clouds. The electron geometry around the carbon atom in CO is trigonal planar.
What is the hybridization of the carbon atom as it is contained in carbon dioxide?
The carbon atom in carbon dioxide is sp2 hybridized. This means that there are three electron pairs around the carbon atom, resulting in trigonal planar geometry.
What is the electron geometry and molecular geometry of ocn?
The electron geometry of OCN⁻ (cyanate ion) is trigonal planar, as it has three regions of electron density around the central carbon atom: one double bond to oxygen and a single bond to nitrogen, along with a lone pair of electrons. The molecular geometry is also trigonal planar because the lone pair does not affect the shape in this case, allowing for the same arrangement of the bonded atoms.
