H-H
Symbolizing the two electron, one from each atom, covalent bond of a molecule/diatomic hydrogen gas in its natural state.
The answer to this is quite simple. Take the first letter of hydrogen and wrIte it as so(h). Then you put the two next to it towards the bottom of the "h" as so(h(2)). Then you do the same thing with the next word like (H(2)O(2)). Just that my phone will not let me place it as should be.
Hydrogen and oxygen are both diatomic, existing naturally as H2 and O2. Since water has twice as many hydrogen atoms as oxygen atoms, the equation is: 2H2 + O2 = 2H2O. Of course the numbers to the right of the element names should be subscripted.
"2HO" would imply two separate molecules each containing 1 hydrogen atom and 1 oxygen atom. While such a chemical species does exist it is different from H2O2, which consists of 2 hydrogen atoms and 2 oxygen atoms bound together in 1 molecule.
Covalent and Dative covalent bonding.
Benzene is an aromatic organic molecule. Its formula is C6H6. The carbons are joined in a ring that is represented as a flat hexagon. The associated hydrogen atoms are represented as being attached to the individual carbon atoms but the electrons for sp2 bonding with the C-C bonding of the benzene molecule are actually distributed equally between each of the six carbon atoms - a phenomena referred to as electron delocalization or a superposition of so-called resonance structures. The delocalization contributes to benzene's thermodynamic stability and that of related aromatic compounds.
The hydrogen phosphide (syn.: phosphine, phosphane) has the chemical formula PH3.
Covalent because it has Tri as a prefix and it shares electrons.
Hydrogen is represented simply by a capitol 'H'.
You don't. A triple bond occurs between two atoms that each have either three or four bonding sites. Nitrogen molecules and acetylene molecules have triple bonds. Hydrogen atoms have one bonding site.
The answer to this is quite simple. Take the first letter of hydrogen and wrIte it as so(h). Then you put the two next to it towards the bottom of the "h" as so(h(2)). Then you do the same thing with the next word like (H(2)O(2)). Just that my phone will not let me place it as should be.
Hydrogen and oxygen are both diatomic, existing naturally as H2 and O2. Since water has twice as many hydrogen atoms as oxygen atoms, the equation is: 2H2 + O2 = 2H2O. Of course the numbers to the right of the element names should be subscripted.
2 hydrogen molecules 1 oxygen molecule H2O
A symbol for a diatomic molecule as N2 (2 is a subscript, impossible to write in WA).
"2HO" would imply two separate molecules each containing 1 hydrogen atom and 1 oxygen atom. While such a chemical species does exist it is different from H2O2, which consists of 2 hydrogen atoms and 2 oxygen atoms bound together in 1 molecule.
H2 S O4 Remove spaces, the auto correct wouldn't let me submit it without them.
Covalent and Dative covalent bonding.
Benzene is an aromatic organic molecule. Its formula is C6H6. The carbons are joined in a ring that is represented as a flat hexagon. The associated hydrogen atoms are represented as being attached to the individual carbon atoms but the electrons for sp2 bonding with the C-C bonding of the benzene molecule are actually distributed equally between each of the six carbon atoms - a phenomena referred to as electron delocalization or a superposition of so-called resonance structures. The delocalization contributes to benzene's thermodynamic stability and that of related aromatic compounds.