round about 109.5
The bond angle in CCl4 is 109.5°. This is because the molecule adopts a tetrahedral geometry, where the bond angles between the carbon atom and the four chlorine atoms are all equal due to the repulsion between electron pairs.
The approximate Cl-Si-Cl bond angle in SiCl2F2 is expected to be around 109.5 degrees. This is because the molecule adopts a tetrahedral geometry due to the presence of four electron pairs around the silicon atom, resulting in bond angles close to the ideal tetrahedral angle.
The bond angle in a tetrahedral molecular geometry is approximately 109.5 degrees.
The sulfate ion is tetrahedral, bond angle around 109 0
The bond angle in chloroform, CHCl3, is approximately 109.5 degrees. This is consistent with the ideal tetrahedral angle for a molecule with a central atom (carbon) bonded to three identical atoms (chlorine) and one lone pair.
A tetrahedral molecule will have a 109.5 degree bond angle.
Tetrahedral bond angle of a molecule which have a lone pair electron is 107, smaller than regular 109.5, due to the repulsion of electrons of lone pair.
The bond angle in CCl4 is 109.5°. This is because the molecule adopts a tetrahedral geometry, where the bond angles between the carbon atom and the four chlorine atoms are all equal due to the repulsion between electron pairs.
The molecular geometry and bond angle of clone is the result of a tetrahedral electron. It is common to be called a bent molecule.
The approximate Cl-Si-Cl bond angle in SiCl2F2 is expected to be around 109.5 degrees. This is because the molecule adopts a tetrahedral geometry due to the presence of four electron pairs around the silicon atom, resulting in bond angles close to the ideal tetrahedral angle.
The bond angle in a tetrahedral molecular geometry is approximately 109.5 degrees.
In a tetrahedral molecule the characteristic angle between atoms is 109,5 degrees.
The sulfate ion is tetrahedral, bond angle around 109 0
The bond angle in chloroform, CHCl3, is approximately 109.5 degrees. This is consistent with the ideal tetrahedral angle for a molecule with a central atom (carbon) bonded to three identical atoms (chlorine) and one lone pair.
NH4+ is tetrahedral, with bond angle of 109.5o
The H-N-H bond angle (assuming that's what the question is trying to ask) is a bit less than the tetrahedral angle, 109.5o.
The shape of the sulfate ion is tetrahedral and the bond angle between the oxygen atoms is approximately 109.5 degrees.