nonpolar
Yes, boron trihydride (BH3) is a polar molecule because it has a symmetrical trigonal planar shape with three hydrogen atoms around a central boron atom. The electronegativity difference between boron and hydrogen causes an uneven distribution of electrons, resulting in a slightly negative charge on boron and slightly positive charges on the hydrogens, making the molecule polar.
it is BH3
It's non polar covalent
Yes, boron trifluoride is polar because of the difference in electronegativity between boron and fluorine atoms. The fluorine atoms impart a partial negative charge, while the boron atom carries a partial positive charge, creating an uneven distribution of electron density.
Polar
Yes, boron trihydride (BH3) is a polar molecule because it has a symmetrical trigonal planar shape with three hydrogen atoms around a central boron atom. The electronegativity difference between boron and hydrogen causes an uneven distribution of electrons, resulting in a slightly negative charge on boron and slightly positive charges on the hydrogens, making the molecule polar.
it is BH3
It's non polar covalent
Yes, boron trifluoride is polar because of the difference in electronegativity between boron and fluorine atoms. The fluorine atoms impart a partial negative charge, while the boron atom carries a partial positive charge, creating an uneven distribution of electron density.
Polar
Boron typically has a valency of 3 as it has 3 valence electrons. However, under certain conditions, boron can form compounds where it exhibits a valency of -3 by accepting additional electrons to complete its octet. This is observed in compounds like boron trihydride (BH3) or boron trifluoride (BF3).
The electron geometry of boron trihydride (BH3) is trigonal planar. This is due to the presence of three bonding pairs of electrons around the central boron atom, arranged symmetrically at 120-degree angles. There are no lone pairs on the boron atom, which helps maintain this planar arrangement.
(a) Silicon dioxide: SiO2 (b) Dihydrogen sulfide: H2S (c) Boron trifluoride: BF3 (d) Dihydrogen dioxide: H2O2 (e) Carbon tetrafluoride: CF4 (f) Nitrogen trihydride: NH3
Argon is a non metal, beryllium is a metal, boron is a non metal
Yes. Due to it only having 3 electrons in its outer shell boron can only bond to 3 other hydrogen. The shape of the formed is planer and hence the electron density around the molecular is evenly distributed so there are no + or -ve regions and therefore it is non-polar.
BCl3 is a polar molecule because it has a trigonal planar molecular geometry with one lone pair on the central boron atom. The differences in electronegativity between boron and chlorine atoms create a net dipole moment, making the molecule polar.
The formula for nitrogen trihydride is NH3.