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One main characteristic of non-Euclidean geometry is hyperbolic geometry. The other is elliptic geometry. Non-Euclidean geometry is still closely related to Euclidean geometry.
molecular geometry is bent, electron geometry is tetrahedral
Molecular geometry will be bent, electron geometry will be trigonal planar
Geometry is based on logic.
It has seesaw geometry.
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-
no
The Kb value for CH3NH2(aq) is 4.4 x 10^-4.
Kb = [CH3NH3 +] [OH-] / [CH3NH2]
The balanced chemical reaction between methylamine (CH3NH2) and hydrobromic acid (HBr) is: CH3NH2 + HBr -> CH3NH3+ Br-
No, CH3NH2 (methylamine) is not an isomer. Isomers are compounds with the same molecular formula but different structural formulas. Methylamine has a different molecular formula and structure from any isomers of the same formula.
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.
[ch3nh3+][oh-] / [ch3nh2]
Yes, CH3NH2 (methylamine) is a weak electrolyte. In solution, it partially ionizes into CH3NH2+ and CH3NH− ions, which allows it to conduct electricity to some extent.
The equilibrium constant (Ka) for the reaction of CH3NH2 with water to form CH3NH3 and OH- ions is the ratio of the concentrations of the products (CH3NH3 and OH-) to the concentration of the reactant (CH3NH2) at equilibrium. It represents the extent to which the reaction proceeds in the forward direction.
Yes, CH3NH2 can form hydrogen bonds. The nitrogen in CH3NH2 is capable of acting as a hydrogen bond acceptor, while the hydrogen atoms attached to nitrogen can act as hydrogen bond donors.