CH3F contains no covalently bonded hydrogen atoms DIRECTLY to the Fluorine.
flourine oxygen and nitrogen forms hydrogen bonding with hydrogen
NH3, H2O, HF and several other compounds.
No. Hydrogen peroxide (H2O2) is a covalent compound. Each oxygen atom goes through single bonding with the other oxygen atom, and another single bond with one hydrogen atom.
covalent bonding in titanium hydride complexes and in the poorly characterised TiH4. Note that titanium metal "dissolves " hydrogen in similar way to palladium. This is not a chemical compound but involves hydrogen atoms inside the titanium lattice.
CH3F contains no covalently bonded hydrogen atoms DIRECTLY to the Fluorine.
flourine oxygen and nitrogen forms hydrogen bonding with hydrogen
Yes, The hydrogen atom that is covalently bonded to the oxygen can form hydrogen bonding, because the C-H bonds aren't polar enough.
NH3, H2O, HF and several other compounds.
Hydrogen gas is a molecular compound because it is two non-metals bonding. Non-metal + Non-metal = Molecular compound Metal + Non metal = Ionic compound
No. Hydrogen peroxide (H2O2) is a covalent compound. Each oxygen atom goes through single bonding with the other oxygen atom, and another single bond with one hydrogen atom.
Just one.
covalent bonding in titanium hydride complexes and in the poorly characterised TiH4. Note that titanium metal "dissolves " hydrogen in similar way to palladium. This is not a chemical compound but involves hydrogen atoms inside the titanium lattice.
Ammonia is a covalent compound. It is a compound of two nonmetals, nitrogen and hydrogen, so the difference in electronegativity is not great enough to cause ionic bonding.
Methanol, CH3OH (CH4O) is a covalent molecular compound. It is liquid under normal conditions and there is hydrogen bonding between molecules
nope, there's no hydrogen bonding because the hydrogen is not bonding whit any fluorine, just with the carbon
Hydrogen bonding is a very strong intermolecular attraction for one water molecule to another. Hydrogen sulfide, because of the lower electronegativity of sulfur does not have hydrogen bonding. This strong attraction must be overcome to make the substance boil.