Solid state.
That's because the molecules or atoms move faster, and in general have more energy.That's because the molecules or atoms move faster, and in general have more energy.That's because the molecules or atoms move faster, and in general have more energy.That's because the molecules or atoms move faster, and in general have more energy.
During a phase change from liquid to gas, molecules gain energy to overcome the intermolecular forces holding them together in the liquid state. As they absorb energy, molecules start to move faster and break free from their fixed positions, eventually leading to a transition to the less dense gas phase.
i think in the gaseous phase there are other forces acting atoms of iodine like inter moleculer forces due to wich bond distance increases. in case of gasous state there are no other force acting on the molecule of iodine axcept electrostatic force between two atoms of iodine . so in case of gase elctrostatic force is more than in the case of solid.. if my answer is true please inform me on my cell numbar 00923456744580
Atoms and molecules are in constant motion, vibrating and moving randomly. This movement is due to their kinetic energy. In gases, atoms and molecules move freely in all directions, while in liquids and solids, the movement is more restricted.
The liquid phase of matter can act as a solvent. In this phase, molecules have enough energy to move around and interact with other substances to dissolve them.
A gas is a collection of molecules or atoms that move about freely in all directions. They have high kinetic energy and are continuously colliding with each other and the walls of their container, creating pressure.
Yes, molecules in the gas phase typically move faster than in the liquid phase because gas molecules have more kinetic energy compared to liquid molecules due to the higher temperatures in the gas phase. Additionally, there is more space between gas molecules, allowing them to move more freely and at higher speeds compared to the liquid phase where molecules are more closely packed.
Ice is a molecule of water (H2O) in the solid phase.
In a gas, molecules are relatively far apart and have the energy to move quickly.
That's because the molecules or atoms move faster, and in general have more energy.That's because the molecules or atoms move faster, and in general have more energy.That's because the molecules or atoms move faster, and in general have more energy.That's because the molecules or atoms move faster, and in general have more energy.
That's because the molecules or atoms move faster, and in general have more energy.That's because the molecules or atoms move faster, and in general have more energy.That's because the molecules or atoms move faster, and in general have more energy.That's because the molecules or atoms move faster, and in general have more energy.
That's because the molecules or atoms move faster, and in general have more energy.That's because the molecules or atoms move faster, and in general have more energy.That's because the molecules or atoms move faster, and in general have more energy.That's because the molecules or atoms move faster, and in general have more energy.
In the solid phase, molecules are closely packed together in a fixed position, vibrating in place. In the liquid phase, molecules are more loosely packed and have more freedom to move around, sliding past each other. In the gas phase, molecules are far apart and move freely and quickly, colliding with each other and the container walls.
the atoms and molecules are free to move independently, colliding frequently.
the atoms and molecules are free to move independently, colliding frequently.
Adding energy increases the movement of atoms and molecules as they gain kinetic energy and move more rapidly. Removing energy has the opposite effect, slowing down the movement of atoms and molecules as they lose kinetic energy and move more slowly.
they are attracted to each other opposites attract in tight spaces