No following, but this is a polar molecule,
H2O
water
Slightly negatively charged on the oxygen end and slightly positively charged on the hydrogen end. Neutral overall.
# The fomula represents a polar molecule is : H20
The formula represents a polar molecule containing polar covalent bonds is H2O. Another chemical formula that represent a polar molecule is HCl.
The Hydrogen atoms are + and the Oxygen atoms are -. It looks like H0H
To identify an electron dot diagram with a polar molecule look for highly electronegative atoms to be present like F, O, Cl, N, Br, and I.
choice 3
2
CHCl3 is a polar molecule. Its electron and molecular geometries are both tetrahedral, yet the Chlorine atoms are more electronegative than the Hydrogen atom, making the molecule polar.
NI3 is a polar molecule, one must remember that the lone pairs will skew the electron geometry.
NH4, or ammonium is an ion. Ions cannot be polar or nonpolar because they must be parts of larger ionic compounds. The compound would be polar.
Any molecule where the two atoms bonded together have the same electronegativity - e.g. an element such as O2. Some molecules can have polar bonds but be non-polar overall if the polarity of the bonds 'cancel out', e.g. CO2, CCl4, NH4+ This happens if the bonds are pointing in opposing directions - draw out a diagram of CO2 which has two polar double bonds to see this. Remember to consider the shape of the molecules (including lone electron pairs) when looking at the polarity of the whole molecule.
No a molecule is a molecule, polar or nonpolar.
a dipole in induced.
No, H2O is a very polar molecule
CHCl3 is a polar molecule. Its electron and molecular geometries are both tetrahedral, yet the Chlorine atoms are more electronegative than the Hydrogen atom, making the molecule polar.
The actual answer should be an anion which are polar species.
Hexane is a non-polar molecule because it only has Carbon and Hydrogen atoms in it. The electronegativity (electron affinity) is too low for any of the bond within the molecule to be polar.
NI3 is a polar molecule, one must remember that the lone pairs will skew the electron geometry.
Every molecule has a polarity. They can either be non-polar (same on both sides) or polar (different on both sides). For example the molecule CO2 is a non-polar molecule. H20 (water) is a polar molecule (due to Valence Shell Electron Pair Repulsion theory (VSEPR)).
Water is a polar molecule, meaning it has an uneven distribution of electrons (draw an electron dot diagram to see). Polar substances attract other polar substances, however polypropylene is non-polar, meaning it has an even distribution of electrons, therefore it will not be attracted to water, instead being repelled by it. similar to polar attracts polar, so does non-polar attract non-polar
Yes. The oxygen end is slightly negatively charged, and the hydrogen end is slightly positively charged.
NH4, or ammonium is an ion. Ions cannot be polar or nonpolar because they must be parts of larger ionic compounds. The compound would be polar.
Water is polar due to the two sets of unbound electron pairs on the oxygen molecule which oppose the positivly charged hydrogen. This causes a dipole, a positive and negative end to the molecule.
Any molecule where the two atoms bonded together have the same electronegativity - e.g. an element such as O2. Some molecules can have polar bonds but be non-polar overall if the polarity of the bonds 'cancel out', e.g. CO2, CCl4, NH4+ This happens if the bonds are pointing in opposing directions - draw out a diagram of CO2 which has two polar double bonds to see this. Remember to consider the shape of the molecules (including lone electron pairs) when looking at the polarity of the whole molecule.