the molecules will go slowly around in the glass
In a solid, the molecules are very close and compact with very no space to move around. In a liquid the molecules have little space to move around, and in a gas, the molecules are very spaced out. The gas molecules move around a lot because they have so much space between and around them. Hope this helped..
When a gas becomes a liquid, the atoms or molecules move closer together due to a decrease in temperature. This causes their kinetic energy to decrease, resulting in weaker intermolecular forces that hold them together in a more condensed state. The gas molecules lose their ability to move freely and take on a more organized arrangement.
The correct order from left to right for increasing distance between bromine molecules is gas, liquid, solid. In the gas phase, molecules are widely separated and move freely. In the liquid phase, molecules are closer together but can still move around. In the solid phase, molecules are tightly packed and have limited movement.
The molecules begin to release and move into the air more quickly than they condense back into liquid.
At increased temperatures, atoms and molecules exhibit more kinetic energy. This energy shows up as "vibration" in the atom or molecule. Those atoms and molecules also move around more in the "situation" they're in. As a liquid or gas, those particles that make it up will move around more within the volume of that liquid or gas. In a solid, the atoms or molecules will "buzz" increasingly as temperature goes up.
this question is too hard to answer :) hope i helped
When the liquid molecules are heated, they move faster so the liquid boils and some molecules becomes gas molecules. When the liquid molecules are heated, they move faster so the liquid boils and some molecules becomes gas molecules.
The liquid cools down. Its molecules move more slowly.
The solid absorbs energy from the surroundings, causing the molecules to move around and no longer be in a tight structure (solid) but moving around fairly easy (liquid).
In a solid, the molecules are very close and compact with very no space to move around. In a liquid the molecules have little space to move around, and in a gas, the molecules are very spaced out. The gas molecules move around a lot because they have so much space between and around them. Hope this helped..
Molecules in a liquid move faster than in a solid because the intermolecular forces in a liquid are weaker, allowing molecules to move around more freely. In a solid, molecules are held tightly in a fixed position by strong intermolecular forces.
Molecules in liquid goes fast and its able to flow around. Molecules in solid aren't able to move around and is stuck together. Lastly, Molecules in gas are able to move around wicked fast and does not bunch together.
In a solid the molecules are tightly packed together all touching one another and vibrate; in a liquid the molecules are more loosely packed and more free to move around but they are still touching; in a gas the molecules are free to move where they please
No, molecules have more freedom of movement in the liquid state compared to the solid state. In solids, molecules are tightly packed and have limited translational and rotational movement. In liquids, molecules have more space to move around and slide past each other, allowing for greater freedom of movement.
Because molecules in a liquid are not bound the way they are in solids and they can move freely so diffusion happens faster too.
When a liquid changes to a solid (freezing), the molecules slow down and come closer together, forming a regular, orderly arrangement. This process releases heat energy as the molecules lose kinetic energy. The molecules transition from a more disordered state in the liquid to a more ordered state in the solid.
When a solid is melted, the molecules gain enough energy to overcome the forces holding them together in a rigid structure. As a result, the molecules move more freely and take on a more disordered arrangement, transitioning from a solid to a liquid state.