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The approximate bond angles for BrF5 is approximately 90 degrees because there would be one lone pair of electrons left over, making the molecular shape square pyramidal... This gives an approximate bond angle of 90 degrees. AX5E, sp3d2 hybridized.
The bond angles are 120 degrees
If you draw out the Lewis Structure you can see that CHClO has a central atom of C with a single bond to H, a single bond to Cl, and a double bond to O. Since C has 4 bonds it is happy with all of its 8 electrons and has no lone pair electrons; therefor there are only 3 forces off of C that we have to worry about. These 3 forces are going to want to push each other away as far as possible. While Cl is going to be stronger than H in pushing force the farthest possible is still going to be trigonal planar geometry, which is a flat 2D triangle, like what you would draw on paper when sketching the Lewis structure. The approximate bond angles in CHClO are therefor going to be 120o (360o/3 = 120o). However, for future reference, the approximate bond angles are only exact when all charge clouds are equivalent. For example, CHClO is trigonal planar with bond angles of approximately 120 degrees, but BCl3 is trigonal planar with bond angles of exactly 120 degrees. Molecules that contain a lone pair on the central atom show even more distortion in the bond angles.
90, 120, 180.
600
90 and 180 are the approximate bond angles.
The approximate bond angles in CHClO is 120 degrees.
180
SeF6 is a regular octahedron , all bond angles are 90 degrees
Yes. H2CO is formaldehyde or methanal. It has two single C-H bonds and a C=O double bond
The approximate bond angles for BrF5 is approximately 90 degrees because there would be one lone pair of electrons left over, making the molecular shape square pyramidal... This gives an approximate bond angle of 90 degrees. AX5E, sp3d2 hybridized.
H2co
NOCl nitrosyl chloride has a Cl-N=O bond angle of 1130
For a truly trigonal planar molecule the bond angles are 120 0 exactly.
H2CO; H2CO is polar, whereas CH3CH3 is nonpolar. H2CO has dipole forces in addition to LD forces. CH3CH3 only has LD forces.
The bond angles are 120 degrees
If it is non polar, the bond angles are as follows:I-P-I bond angles: 120ºBr-P-Br bond angles: 180ºI-P-Br bond angles: 90º