when liquid loses enough energy then it will be transformed to the solid stat. For example if we get energy from liquid water then the water molecules can not move with same speed that they had before, therefore they will loss their activity and become solid. like ice
Energy is lost. According to this the speed and direction would change
In a perfectly elastic collision of gas particles, no kinetic energy is lost during the collision. This means that the total kinetic energy of the particles before the collision is equal to the total kinetic energy after the collision. As a result, the momentum and speed of the particles are conserved.
If an atom forms from its constituent particles, the protons and neutrons would come together in the nucleus, surrounded by electrons in energy levels. The atom would have a neutral charge and would be stable unless it undergoes interactions with other atoms or particles.
Electrons are these particles.
Yes, when liquid particles freeze, they release energy in the form of heat to their surrounding environment. However, individual particles do not gain energy during the freezing process, but rather lose energy as they transition from a higher energy liquid state to a lower energy solid state.
the particles will move closer together
Carbon Dioxide Brother
Energy is lost. According to this the speed and direction would change
As energy is lost in a closed system, the overall space remains constant based on the conservation of mass and energy principle. However, the distribution of particles and their respective energies within that space may change. This can lead to changes in temperature, pressure, and volume within the system.
When energy is lost from matter, it can result in a decrease in the speed or movement of the particles within the matter. This can lead to a decrease in temperature or a change in state (e.g. solid to liquid). The lost energy is typically converted into other forms, such as heat or radiation.
When a gas is cooled the individual particles of the gas lose energy. As this energy is lost these particles start slowing down as they flow less. Once they have lost sufficient energy the particles come close enough together that they can be perceived as a liquid.
When enough energy is gained, the object's kinetic or potential energy increases, causing it to speed up, move higher, or change state. When enough energy is lost, the object's kinetic or potential energy decreases, causing it to slow down, move lower, or change state. This exchange of energy can lead to changes in the object's physical properties or behavior.
As energy is lost, the particles slow down and move closer together, causing the space between them to decrease. This is due to the conservation of momentum and energy, which cause the particles to interact more closely in order to dissipate the energy that is being lost.
In a perfectly elastic collision of gas particles, no kinetic energy is lost during the collision. This means that the total kinetic energy of the particles before the collision is equal to the total kinetic energy after the collision. As a result, the momentum and speed of the particles are conserved.
The short answer generally is that heat energy is lost from the gas particles to the sourrounding area, resulting in the attraction forces of the particles to draw them closer to each other and condensing the matter into a liquid. When heat is added, the particles move around faster. When enough heat is added, the energy eventually overcomes the attraction force, causing the matter to evaporate into a gas.
The law of conservation of energy.
The particles will move slower as energy is lost.