No because there is not an OH group present, this compound is not soluble in water.
This type of bond is called a hydrogen bond. It occurs when a hydrogen atom covalently bonded to an electronegative atom is attracted to another electronegative atom with a partial negative charge. Hydrogen bonds are important in maintaining the structure and properties of molecules such as water and proteins.
Both the choices given are acceptable and correct chemical formulas in most contexts, because each one shows the presence of two carbon atoms and six hydrogen atoms in each molecule. The second formula is preferred in some contexts because it hints at the structural formula of the molecule, which has each hydrogen atom bonded directly to only one of the carbon atoms, and in order to further emphasize this point the formula is sometimes written as H3C-CH3.
Yes, vanillin can hydrogen bond. Vanillin contains oxygen atoms that can serve as hydrogen bond acceptors, allowing it to form hydrogen bonds with hydrogen atoms from other molecules.
Yes, ketones can participate in hydrogen bonding with water. The oxygen atom in the ketone functional group is electronegative and can act as a hydrogen bond acceptor, forming hydrogen bonds with the hydrogen atoms in water molecules.
A hydrogen bond is a very strong dipole-dipole bond. A hydrogen bond can only form between hydrogen and a strong electromagnetic atom; fluorine, oxygen or chlorine.
All the bonds in C2H6, ethane, are covalent.
addition reactions. I was looking up the same question and found it!!!
C2H6, which is the chemical formula for ethane, consists of covalent bonds. This is because ethane is made up of two carbon atoms sharing electrons with six hydrogen atoms to form stable molecular bonds.
Only sigma bonds are present in ethane. There is one carbon-carbon sigma bond and six carbon-hydrogen sigma bonds in C2H6.
its made up of both hydrogen and carbon
there are two Carbon Atoms and six Hydrogen atoms
Compound c, C2H6, is a hydrocarbon. It consists of only carbon and hydrogen atoms, which are the defining characteristic of hydrocarbons. The other compounds listed contain oxygen in addition to carbon and hydrogen.
The chemical energy of C2H6 (ethane) is higher than C2H4 (ethylene) and H2 (hydrogen) because ethane has more carbon-carbon and carbon-hydrogen bonds which store energy. Ethylene has a double bond, while hydrogen gas consists of diatomic molecules, both of which have less energy stored in their bonds compared to the single bonds in ethane.
C2H6 is a molecular compound. It consists of covalent bonds between the carbon and hydrogen atoms, rather than ionic bonds.
A hydrogen bond acceptor is a molecule that can accept a hydrogen bond by having a lone pair of electrons available to form a bond with a hydrogen atom. A hydrogen bond donor is a molecule that can donate a hydrogen atom with a slightly positive charge to form a bond with a hydrogen bond acceptor. In simple terms, a hydrogen bond acceptor receives a hydrogen bond, while a hydrogen bond donor gives a hydrogen bond.
Yes, C2H6 is a hydrocarbon. It is specifically a saturated hydrocarbon known as ethane, which is composed of two carbon atoms and six hydrogen atoms.
The oxidation number of carbon in C2H6 (ethane) is -3. This is because each hydrogen has an oxidation number of +1, and the overall charge of the molecule is 0.