The bonds in methane are covalent.
The number of hydrogens equals 2x the number of carbon atoms, plus 2 extra hydrogens.
Carbon = 4 valance electronsNitrogen = 5 valance electrons4 + 5 = 9 and 2 valance electrons used for the single bond, 9 - 2 = 73 hydrogens can attach to the carbon and 4 hydrogens can attach to the nitrogen, so.......7 hydrogen atoms would complete this molecule===================================
Amino acid
Methanol has a single carbon it its center with , 3 hydrogens and 1 hydroxyl (OH) group attached for a total of: 1 carbon atom 4 hydrogen atoms 1 oxygen atom
The bond between the carbon atoms is a double bond.
Four. A terminal carbon in an alkane is bonded to 3 hydrogens and 1 carbon, while a middle carbon is bonded to 2 hydrogens and 2 carbons.
The number of hydrogens equals 2x the number of carbon atoms, plus 2 extra hydrogens.
Ethane has one single bond between the two carbon atoms and 6 single bonds between the the carbons and hydrogens.
covalent:)
When two carbon atoms are linked by a triple bond, one will be a sigma bond (formed by the 2px-px overlap of the two carbon atoms) whereas the other two will be pi bonds (formed by the 2py-py overlap and 2pz-pz overlap of the two carbon atoms).
It has single covalent bonds between the carbon and hydrogens. These are C-H sigma bonds. They form by constructive overlap of the 1s orbitals on the hydrogens and sp3 hybrid orbitals on the carbon.
The bond between similar atoms is always covalent so carbon-carbon bond is a true covalent bond.
CO2 and H2O has 1 carbon, 2 hydrogens and 3 oxygens.
Carbon = 4 valance electronsNitrogen = 5 valance electrons4 + 5 = 9 and 2 valance electrons used for the single bond, 9 - 2 = 73 hydrogens can attach to the carbon and 4 hydrogens can attach to the nitrogen, so.......7 hydrogen atoms would complete this molecule===================================
carbon atoms, hydrogen atoms, hydroxide atoms
Amino acid
The formula for glucose is C6H12O6. This means that six carbon atoms can be found within one molecule of glucose, as well as twelve hydrogens and six oxygens. In, for example, photosynthesis, carbon dioxide is involved in a complex series of reactions that form glucose from those molecules, as well as from hydrogen atoms from water. If 54 molecules of carbon dioxide, and thus 54 atoms of carbon, were used in photosynthesis, nine molecules of glucose would be formed, thus meaning that all of the carbon atoms would become glucose. Therefore, all of the carbon atoms can potentially become part of glucose.