Can someone check my answers? Identify the structure as having hydrogen bonding, dipole-dipole moments or London dispersion forces (LDF).
H2O
NH3, CH4, and CO2

Question

Can someone check my answers?  Identify the structure as having hydrogen bonding, dipole-dipole moments or London dispersion forces (LDF).
H2O
NH3, CH4, and CO2

anonymous · Answer

I just need that some one check my answers?
Bonding: Hydrogen bonding (the strongest force), dipole-dipole, and london dispersion
Bonding: Hydrogen bonding (the strongest force), dipole-dipole, and london dispersion
 London dispersion (the strongest force)
 Dipole-dipole (the strongest force), london dispersion

anonymous · Answer

i believe that the ch4 is Hbonding, H2ONH3 is dipole-dipole because of the bonds on the oxygen and the LDF is co2

anonymous · Answer

so my answers are right

anonymous · Answer

?

anonymous · Answer

really i'm not sure what you're trying to say in that second part. the first 2 lines are the same and the other ones are just liek that.....what do you think the answer is?

anonymous · Answer

H2O: London dispersion, Hydrogen bonding, dipole-dipole
NH3 London dispersion, dipole-dipole, hydrogen bonding
CH4 London dispersion
 CO2 London dispersion, dipole-dipole

anonymous · Answer

oh h2o and nh3 are not the same atom?  no comma in the top part i thought they were the same.   H2O is hydrogen bonding

anonymous · Answer

only hydrogen bonding?

anonymous · Answer

yes, each molecule only has one kind of bonding. they aren't a mix of them

anonymous · Answer

oh so what about the other three? :/

anonymous · Answer

NH3 is hydrogen bonding and the other two are up there.

anonymous · Answer

but there can't be a mix so co2 is not both Dipole-dipole and, london dispersion ??

anonymous · Answer

well, i'm not sure about that i think CO2 would just be LDF because the dipole dipole are for more polar compounds.  i am thinking the answer are   h20 - Hbonding - CH4 LDF CO2 -Ldf  and nh3 - H

anonymous · Answer

alright thank a lot :)