As bromine is cooled, the particles comprising the bromine slow down and lose kinetic energy. Eventually, the particles come closer together, forming a liquid as the temperature decreases further. At the point where the bromine reaches its freezing/melting point, the particles will arrange into a solid structure.
When particles in a liquid are cooled, they lose energy and move more slowly. Eventually, the particles will slow down enough to form a solid as the attractive forces between them overcome their kinetic energy.
When materials are heated, the particles gain kinetic energy and move faster, leading to expansion of the material. Conversely, when materials are cooled, the particles lose kinetic energy and move slower, causing the material to contract or condense.
When steam is cooled, its particles lose energy and slow down. As a result, the steam condenses back into water vapor or liquid water. The particles move closer together due to the decrease in thermal energy.
When particles in a solid are cooled, they lose energy and slow down. This decrease in motion causes the particles to come closer together, resulting in a decrease in volume. Ultimately, the solid may reach a point where the particles are very closely packed and move very little, forming a stable crystal lattice.
When a solid is heated, the particles gain energy, leading to increased movement and vibration. This causes the particles to expand, leading to an increase in volume. Conversely, when a solid is cooled, the particles lose energy, resulting in decreased movement and contraction, which decreases the volume of the solid.
As bromine is cooled, it changes from a reddish-brown liquid to a reddish-brown solid at -7.2°C, forming long, needle-like crystals. Below -7.2°C, the solid bromine continues to contract and becomes denser.
Any substance with an arrangement of particles close together in a regular pattern is a SOLID. It is, infact, probably the best definition of a crystalline solid we have. The interesting thing is that this bromine must have been cooled a lot because bromine is normally a liquid at room temperature and pressure.
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it loses energy that makes it not move as quickly, therefore it gets smaller. that answer your question?
When particles in a liquid are cooled, they lose energy and move more slowly. Eventually, the particles will slow down enough to form a solid as the attractive forces between them overcome their kinetic energy.
When materials are heated, the particles gain kinetic energy and move faster, leading to expansion of the material. Conversely, when materials are cooled, the particles lose kinetic energy and move slower, causing the material to contract or condense.
the particle will vibrate more slowly around its position.
When steam is cooled, its particles lose energy and slow down. As a result, the steam condenses back into water vapor or liquid water. The particles move closer together due to the decrease in thermal energy.
What happens to bromine gas in a sealed tube when it is cooled and later heatedAnswer:When bromine is cooled and then heated in a sealed container, the bromine juice starts evolving in a gaseous state. It then becomes a gas i.e. bromine gas which is red-brown in color
senior chemistry textbook? im on that question!
Gaseous.
Bromine is a liquid at room temperature. Cooled below its freezing point, bromine would probably be a brittle crystalline solid much like iodine.