I'm assuming you're talking about the bonds in 20 ounces (volume) of water and not the bottle. We need to find out how many molecules are in this amount of water, then water (H2O) has 2 bonds, so multiply the number of molecules by 2.
H2O has an Atomic Mass of 18 (Oxygen is 16, & each Hydrogen is 1), so 1 mole of water has a mass of 18 grams.
Water's density is fairly constant (1 g/mL)throughout the range of temperatures that it is a liquid. 20 ounces is 591.471 mL {I used the converter on my calculator}, so 591.471 mL has a mass of 591.471 grams. (591.471 g)/(18 g/mole) = 32.8595 moles.
Using 6.022 x 1023 molecules per mole: (32.8595 mole)*(6.022 x 1023 molecule/mole) = 1.978798 x 1025 molecules, then multiply by 2 for number of bonds: 2 * 1.978798 x 1025 = 3.957595 x 1025 bonds.
Note: I rounded the numbers for typing, but I kept the unrounded numbers in my calculator at each intermediate step. If you round at each step, you may come up with slightly different numbers.
Single, double, and triple carbon-carbon bonds; carbon-hydrogen bonds; carbon-halogen bonds; hydrogen-hydrogen bonds; nitrogen-nitrogen bonds; single and double carbon-oxygen bonds; silicon-oxygen bonds in silicone polymers.
Yes, it can! The hydrogen bonds with oxygen thus forming a hydrogen bond. (OH)
The hydrogen and oxygen are held together by polar covalent bonds.
Ethanol has one hydrogen-oxygen bond, one carbon-oxygen bond, one carbon-carbon bond, and five carbon-hydrogen bonds. Dimethyl ether has six carbon-hydrogen bonds and two carbon-oxygen bonds.
Water can form hydrogen bonds because of the polarity of its oxygen hydrogen bonds. In these bonds, oxygen has a partial negative charge and hydrogen has a partial positive charge. Because of this, the partially positive hydrogens on one molecule can form bonds with partially negative oxygen atoms in other water molecules. These intermolecular bonds are hydrogen bonds.
The sharing of electrons is what bonds hydrogen and oxygen together.
Oxygen doesn't have any hydrogen bonds. A hydrogen bond is when a hydrogen atom is bonded with an electronegative atom, such as oxygen. Oxygen all by itself does not have hydrogen bonded to it. It is simply written as 02.
Single, double, and triple carbon-carbon bonds; carbon-hydrogen bonds; carbon-halogen bonds; hydrogen-hydrogen bonds; nitrogen-nitrogen bonds; single and double carbon-oxygen bonds; silicon-oxygen bonds in silicone polymers.
Yes, it can! The hydrogen bonds with oxygen thus forming a hydrogen bond. (OH)
The hydrogen and oxygen are held together by polar covalent bonds.
Strong hydrogen bonds as the Oxygen is really electronegative and the hydrogen is really unelectronegative. The hydrogen bonds to the oxygen of another molecule.
Ethanol has one hydrogen-oxygen bond, one carbon-oxygen bond, one carbon-carbon bond, and five carbon-hydrogen bonds. Dimethyl ether has six carbon-hydrogen bonds and two carbon-oxygen bonds.
Single, double, and triple carbon-carbon bonds; carbon-hydrogen bonds; carbon-halogen bonds; hydrogen-hydrogen bonds; nitrogen-nitrogen bonds; single and double carbon-oxygen bonds; silicon-oxygen bonds; nitrogen-oxygen bonds; etc.
Water can form hydrogen bonds because of the polarity of its oxygen hydrogen bonds. In these bonds, oxygen has a partial negative charge and hydrogen has a partial positive charge. Because of this, the partially positive hydrogens on one molecule can form bonds with partially negative oxygen atoms in other water molecules. These intermolecular bonds are hydrogen bonds.
Hydrogen bonding exists between hydrogen and oxygen in water, becuase of the huge electronegativity difference between oxygen and hydrogen. This arises, due to the huge electron affinity of oxygen. Such interaction is not possible between carbon and hydrogen, as athe carbon is not as electronegative as oxygen.
The bonds are hydrogen bonds.
Ionic bonds