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Can you collect ammonia over water?
Not very efficiently, because ammonia dissolves so easily in water due to compatible intermolecular attractions between ammonia and water.
Why do ammonia has higher boiling point than methane in terms of intermolecular forces?
it doesn't
How do intermolecular forces determine a substance's state?
If the intermolecular forces are great enough they can hold the molecules together as a liquid. If they are even stronger they will hold the molecules together as a solid. Water has nearly the same mass as methane and ammonia molecules, but the greater molecular forces between water molecules causes the water to be liquid at room temperature, while ammonia and methane, with weaker intermolecular forces, are gases at room temperature.
What will happen when ammonia gas is cooled and compressed?
When ammonia gas is cooled and compressed, it undergoes a phase change and transforms into a liquid state. As the temperature decreases and pressure increases, the kinetic energy of the ammonia molecules reduces, allowing intermolecular forces to draw them closer together. This process is commonly used in refrigeration systems, where ammonia serves as a refrigerant. Eventually, if the conditions are right, ammonia can solidify into a solid form known as ammonium hydrate.
What is the strongest of the intermolecular bonds?
Hydrogen bonds can be considered as the strongest intermolecular attraction forces.
What are the intermolecular forces in ammonia?
The intermolecular forces in ammonia include hydrogen bonding, which occurs between the hydrogen in ammonia and the lone pair of electrons on the nitrogen atom of another ammonia molecule. These hydrogen bonds are relatively strong compared to other intermolecular forces and contribute to the higher boiling point of ammonia.
Can you collect ammonia over water?
Not very efficiently, because ammonia dissolves so easily in water due to compatible intermolecular attractions between ammonia and water.
Why does sugar have a stronger intermolecular force than ammonia does?
Sugar has stronger intermolecular forces, such as hydrogen bonding, due to its molecular structure that allows for more interactions between its molecules compared to ammonia. Ammonia, on the other hand, primarily exhibits weaker dipole-dipole interactions.
What is H-bond?
It can either be a polar oovalent bond as in ammonia or could refer to an intermolecular hydrogen bond (between molecules of ammonia.
What is h bonding?
It can either be a polar oovalent bond as in ammonia or could refer to an intermolecular hydrogen bond (between molecules of ammonia.
Which has the strongest intermolecular force NH3 or H20?
Water (H2O) has stronger intermolecular forces than ammonia (NH3) due to hydrogen bonding in water molecules. Hydrogen bonding is a type of intermolecular force that is stronger than the dipole-dipole interactions present in ammonia molecules.
Why do ammonia has higher boiling point than methane in terms of intermolecular forces?
it doesn't
What is the strongest intermolecular force present in ammonia?
The strongest intermolecular force in ammonia is hydrogen bonding. This occurs because the nitrogen atom in ammonia can form a hydrogen bond with a hydrogen atom from another ammonia molecule, resulting in a relatively strong attraction between the molecules.
Why is water (H2O) a liquid at room temperature, whereas ammonia (NH3) is a gas at room temperature?
Water and ammonia have different intermolecular forces. Water molecules are held together by hydrogen bonding, which is stronger than the dispersion forces that hold ammonia molecules together. This difference in intermolecular forces results in water being a liquid at room temperature while ammonia is a gas.
Why is the boiling point of ammonia lower than bismuthine?
The boiling point of a substance is influenced by its intermolecular forces. Ammonia (NH3) has weaker London dispersion forces compared to bismuthine (BiH3), which has stronger metallic bonding due to bismuth's larger size. This difference in intermolecular forces causes bismuthine to have a higher boiling point than ammonia.
Why do ammonia has higher melting and boiling point than methane?
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.
What is the predominant intermolecular force of methane ammonia nitrogen triflouride?
Correct answers from Mastering Chemistry: NH3 - hydrogen bonding CH4 - Dispersion forces NF3 - dipole-dipole
