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What is the molecular geometry of NO2?
The molecular geometry of NO2 is linear. N(triple bond)N(single bond)O
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.
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 molecular geometry of O3?
linear, o-o-o **************2nd Opinion ************* Nope, it's bent. VSEPR theory predicts a double bond, a single bond, and a lone pair on the central oxygen atom. You can't really get linear out of that.
What is CHCl3 electron geometry?
The electron geometry of chloroform (CHCl3) is tetrahedral. This is due to the four regions of electron density around the central carbon atom: one single bond to hydrogen and three single bonds to chlorine atoms. The tetrahedral arrangement minimizes repulsion between these electron pairs, resulting in a three-dimensional structure.
What is the Molecular geometry for Cl2CO?
The molecular geometry of Cl2CO (dichloroformaldehyde) is trigonal planar. This geometry arises from the arrangement of the three regions of electron density around the central carbon atom, which includes the double bond to oxygen and the single bonds to two chlorine atoms. The bond angles in this configuration are approximately 120 degrees.
What is the molecular geometry of NO2?
The molecular geometry of NO2 is linear. N(triple bond)N(single bond)O
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 is the molecular geometry for CH3I?
Since there is 4 electron domains which are all single bonds without any lone pairs, the molecular geometry is tetrahedral.
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 electron groups are around the central phosphorus atom?
The answer is 1. This is because the only atom with lone paires is phosphorus and it only has 1.
What is the electron domain of NO2?
The electron domain geometry of NO2 is bent or V-shaped, with an angle of approximately 134 degrees. This is because NO2 has two electron domains around the nitrogen atom, resulting in a bent molecular geometry.
What is the molecular geometry for CdCl4 2-?
CdCl4 2- has a tetrahedral molecular geometry. Two of the Cl atoms form normal single bonds with Cd and the other two share 2 of their electrons with the empty p-orbital on Cd.
What is HCOH molecular shape?
HCOH, or formaldehyde, has a trigonal planar molecular shape. This geometry arises from the arrangement of its three regions of electron density around the central carbon atom, which includes one double bond to oxygen and two single bonds to hydrogen atoms. The bond angles in HCOH are approximately 120 degrees, characteristic of sp² hybridization in the carbon atom.
What is molecular geometry of Cl2?
Cl2 is diatomic (2 atoms) so the only possible geometry is linear
What is the molecular geometry of O3?
linear, o-o-o **************2nd Opinion ************* Nope, it's bent. VSEPR theory predicts a double bond, a single bond, and a lone pair on the central oxygen atom. You can't really get linear out of that.
What is the Molecular geometry of C and four of H?
The molecular geometry of CH4 (methane) is tetrahedral. Carbon is at the center with four hydrogen atoms surrounding it, each forming a single covalent bond, resulting in a symmetrical tetrahedral shape.
