Covalent
Ammonia is not organic. Others are organic molecules
Ammonia (NH3) has hydrogen bonding intermolecular forces, whereas methane (CH4) does not. In addition, ammonia is polar, and so also has dipole-dipole forces and methane does not. Thus, it takes more energy (higher temperature) to boil and melt ammonia than it does methane.
No, methane gas (CH4) and ammonia (NH3) are not the same. Methane is a hydrocarbon gas composed of carbon and hydrogen atoms, while ammonia is a compound made of nitrogen and hydrogen atoms. They have different chemical compositions and properties.
Ammonia diffuses faster than methane due to its lighter molecular weight and its smaller size. This allows ammonia molecules to move more quickly through a medium, such as air or another gas, compared to methane molecules.
The reaction between methane and bromine is a substitution reaction, specifically a halogenation reaction. In this reaction, one or more hydrogen atoms in methane are replaced by bromine atoms to form bromomethane.
Oxygen, nitrogen, chlorine, bromine Water, ammonia, methane, hydrogen sulfide Carbon monoxide, carbon dioxide, methane, ethylene The correct answer is option 2: Water (H2O) < ammonia (NH3) < methane (CH4) < hydrogen sulfide (H2S).
Ammonia is not organic. Others are organic molecules
Ammonia (NH3) has hydrogen bonding intermolecular forces, whereas methane (CH4) does not. In addition, ammonia is polar, and so also has dipole-dipole forces and methane does not. Thus, it takes more energy (higher temperature) to boil and melt ammonia than it does methane.
No, methane gas (CH4) and ammonia (NH3) are not the same. Methane is a hydrocarbon gas composed of carbon and hydrogen atoms, while ammonia is a compound made of nitrogen and hydrogen atoms. They have different chemical compositions and properties.
Its atmosphere is.
The equation represents the reaction between methane (CH4) and bromine (Br2) to form methyl bromide (CH3Br) and hydrogen bromide (HBr). This reaction is a substitution reaction in which a hydrogen atom in methane is replaced by a bromine atom.
Ammonia diffuses faster than methane due to its lighter molecular weight and its smaller size. This allows ammonia molecules to move more quickly through a medium, such as air or another gas, compared to methane molecules.
The reaction between methane and bromine is a substitution reaction, specifically a halogenation reaction. In this reaction, one or more hydrogen atoms in methane are replaced by bromine atoms to form bromomethane.
hydrogen, methane, helium, ammonia
Neptune's atmosphere is primarily composed of hydrogen and helium, with small amounts of methane. The methane in the atmosphere gives Neptune its blue color. Additionally, there are traces of other gases such as ammonia and water vapor.
Methane and bromine cannot react without the presence of sunlight or U.V light because of lack of energy which is usually supplied by the U.V light to break the bromine molecules to free radicals for the reaction to occur.Hope my answer helped.ABUAD
# Methane has a carbon atom, ammonia has none # Ammonia has a nitrogen atom, methane has none # Methane has a neutral static charge # Ammonia has a positive static charge # Methane is energetically stable # Ammonia is energetically unstable