The bond angles are 120 degrees
90, 120, 180.
600
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.
It depends on what x and y are.
The bond in C2H2Cl2 is considered polar due to differences in electronegativity between carbon and chlorine atoms, resulting in a partial positive charge on the carbon atoms and partial negative charge on the chlorine atoms. This polarity arises from the unequal sharing of electrons in the bond.
The bond angles are 120 degrees
All isomers of c2h2cl2 are polar because of the presence of chlorine atoms, which are highly electronegative and result in an unequal sharing of electrons in the molecule.
90 and 180 are the approximate bond angles.
The bond angles in BrF5 are approximately 90 degrees.
Urea is sp2 hybridized, so the bond angles are ~120 degrees.
The bond angles in ammonia (NH3) are approximately 107 degrees.
C2H2Cl2 (dichloroethylene) has more than one polarity due to its molecular structure. The carbon-carbon double bond creates regions of electron density that affect the overall dipole moment of the molecule, resulting in multiple poles. Additionally, the two chlorine atoms can induce different dipole moments due to their positions and electronegativities.
What is C2h2cl2??? If you mean C2H2Cl2 Note the use of capital letters. Then it is an alkene. It could be 1,1- dichloroethene. Cl2C=CH2 or 1,2- dichloroethene ClHC = CHCl This could then be either cis(Z)/trans(E) isomers.
SeF6 is a regular octahedron , all bond angles are 90 degrees
The bond angle in COH2 is approximately 90 degrees. Each hydrogen atom is located at the corners of a triangle around the central oxygen atom, resulting in a bent molecular geometry.
The bond angles in IF4^- (iodine tetrafluoride) are approximately 90 degrees.