no
CH3NH2 is methyl amine, and it is ORGANIC.
yes it is soluble in water as we know from the common principal of "like dissolves like" in this case water is a polar molecule as well as the molecule in question therefore the molecule you specified will infact dissolve in water
Kb = [CH3NH3 +] [OH-] / [CH3NH2]
Yes, difluoromethane (CH2F2) is a polar molecule because it has a significant difference in electronegativity between carbon and fluorine atoms, leading to an uneven distribution of charge within the molecule.
The total number of atoms present in the molecule CH3NH2 is 7. This includes one carbon atom, four hydrogen atoms, and two nitrogen atoms.
Well acording to the hesinberg uncertinty principle and the bohrs models which is proven by the Lewis dot diagram this particular moleculewould indeed be polar and at the same time non-polar. The Prof
Yes, CH3NH2 (methylamine) has a dipole moment because the molecule is polar. The nitrogen atom is more electronegative than the carbon and hydrogen atoms, leading to an unequal sharing of electrons and the presence of a net dipole moment in the molecule.
CH3NH2 is methyl amine, and it is ORGANIC.
The ionic equation for the reaction between hydrochloric acid (HCl) and methylamine (CH3NH2) is: HCl + CH3NH2 -> CH3NH3+ + Cl-
The Kb value for CH3NH2(aq) is 4.4 x 10^-4.
yes it is soluble in water as we know from the common principal of "like dissolves like" in this case water is a polar molecule as well as the molecule in question therefore the molecule you specified will infact dissolve in water
Kb = [CH3NH3 +] [OH-] / [CH3NH2]
The reaction is:CH3NH2 + HBr = CH3NH3Br
If you draw out the Lewis structure of SiCl4 you will find that the molecule is of the tetrahedral shape with zero lone pairs. ( I recommend going over your electron group arrangements) meaning that the molecule is NON-POLAR. If a molecule is non-polar then the only IF force present opposing vaporization would be dispersion. When you have a polar molecule there will be dipole- dipole IF's present also. Hope this helps
Yes, difluoromethane (CH2F2) is a polar molecule because it has a significant difference in electronegativity between carbon and fluorine atoms, leading to an uneven distribution of charge within the molecule.
Isomers have equal chemical formula while having different chemical structures. CH3NH2 does not have different chemical structures with the same chemical formula. Therefor CH3NH2 is not an isomer.
Yes, CH3NH2 can have a resonance structure. The lone pair on the nitrogen can delocalize to form a double bond with the carbon, resulting in resonance stabilization.