Unequal sharing of electrons in a water molecule causes the molecule to be polar.
water is a polar, covalent molecule. it doesn't have an unsharing molecule. its also has to do with the 8 properties of water.
No. Hydrogen bonds form as a result of highly unequal charge distribution.
No, the atoms within a given water molecule are covalently bonded to each other, but the molecules are not covalently bonded to other water molecules. Instead they have what is called a coordinate covalent bond. In a covalent bond, atoms share electrons. In a coordinate covalent bond, there is no sharing of electrons but there are regions of electric charge (water molecules have a positive and a negative end to them due to the pattern in which the electrons are distributed) and that causes an electrostatic attraction.
A covalent bond is a chemical bond formed by the sharing of electrons within the molecule. Attractions between molecules are relatively weak because there is no formation of a chemical bond.
Water is a polar molecule where the electrons spend more time in orbitals around the oxygen atom because it is significantly more electronegative than the hydrogen atoms. So, false is the answer.
water is a polar, covalent molecule. it doesn't have an unsharing molecule. its also has to do with the 8 properties of water.
Covalent Bonding
polarity
Part of the Molecule will be slightly negative and the other slightly positive. One example is water. The oxygen atom hogs the electrons leaving the oxygen slightly negative and the hydrogen slightly positive. This makes the water molecules slightly "sticky" and the water molecules clump together. If this didn't happen then water would boil at -120 deg C intead of +100 degrees.
a covalent bond means sharing of electrons the outer most electrons on chlorine shell is 7since chlorine is a diatomic molecule (cl2) it comprises of 2 chlorine atoms having 7in each valence shell. for this molecule to be stable it must attain the stable octet configuration 8electrons in their outer shell x x x Cl x x x x 1 o o o o Cl o o o so they share the electrons (marked with a hyphen) to attain the stable configuration. this sharing of electrons between two chlorine molecules is called sharing of electrons within chlorine
The force that attracts covalent bonds is the sharing of electron pairs between atoms. This sharing allows the atoms to achieve a more stable electron configuration. The shared electrons are attracted to the positively charged nuclei of both atoms, forming a strong bond.
No. Hydrogen bonds form as a result of highly unequal charge distribution.
Atoms within the molecules bond with one another through a process of sharing electrons.
No, the atoms within a given water molecule are covalently bonded to each other, but the molecules are not covalently bonded to other water molecules. Instead they have what is called a coordinate covalent bond. In a covalent bond, atoms share electrons. In a coordinate covalent bond, there is no sharing of electrons but there are regions of electric charge (water molecules have a positive and a negative end to them due to the pattern in which the electrons are distributed) and that causes an electrostatic attraction.
A covalent bond is a chemical bond formed by the sharing of electrons within the molecule. Attractions between molecules are relatively weak because there is no formation of a chemical bond.
A covalent bond because carbon and hydrogen are sharing electrons
A covalent bond is when electrons are shared in bonds.