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When you boil water what do the particles do?
The particles gain energy (kinetic energy) and begin to vibrate. This vibration causes heat. As the particle vibrates, it will collide with other particles in water and pass this energy on to neighbouring particles which causes the heat conduction.
According to kinetic and collision theory why does increasing the temperature of the reaction increase the rate of reaction?
Increasing the temperature of a reaction increases the average kinetic energy of the molecules involved. This results in more frequent and energetic collisions between the molecules, leading to a higher probability of successful collisions that result in a reaction. In essence, increasing the temperature increases both the number of collisions and the proportion of collisions that have enough energy to overcome the activation energy barrier.
Kinetic energy plus particle attraction?
When a particle has kinetic energy (movement), it can overcome the attractive forces between particles and potentially break free from a material. This is common in processes like evaporation, where particles gain enough kinetic energy to break free from the liquid's surface tension and become a gas.
Do atoms rearrange when particles collide with enough energy?
Yes, when particles collide with enough energy, atoms can rearrange, leading to chemical reactions or the formation of new substances. This high-energy interaction can break existing bonds and allow atoms to recombine in different configurations. Such rearrangements are fundamental to various processes, including combustion, metabolism, and nuclear reactions.
Is it true or false that particles in a liquid don't have enough kinetic energy to overcome the attractive forces between them and vaporize?
It is true
Increasing the temperature of the system increases the in the system making it more likely that two particles will collide with thereby increasing the?
average kinetic energy, enough energy, reaction rate
What causes liquid to freeze kinetic energy?
When a liquid is cooled, the kinetic energy of its particles decreases. At a certain temperature, the average kinetic energy becomes low enough for the particles to slow down and form a ordered structure, transitioning from a liquid to a solid state due to the attractive forces between them.
What causes when you add enough energy to matter?
When you add enough energy to matter, the particles within the matter gain kinetic energy, causing them to move faster and collide with each other more frequently. This can lead to changes in state, such as melting or vaporization, or even a phase transition, such as from solid to liquid or gas.
When you boil water what do the particles do?
The particles gain energy (kinetic energy) and begin to vibrate. This vibration causes heat. As the particle vibrates, it will collide with other particles in water and pass this energy on to neighbouring particles which causes the heat conduction.
What happens to substance during changes between gas to liquid?
The particles of the substance gain kinetic energy as they absorb heat energy. Eventually there is enough kinetic energy for the particles to escape the liquid phase, forming the gas phase.
What happens to substance during changed between liquid and gas?
The particles of the substance gain kinetic energy as they absorb heat energy. Eventually there is enough kinetic energy for the particles to escape the liquid phase, forming the gas phase.
In liquid some of the particles have enough kinetic energy to escape from the surface.what is the process called?
The process is called evaporation. It occurs when particles with sufficient kinetic energy at the surface of a liquid transition into the gas phase.
According to kinetic and collision theory why does increasing the temperature of the reaction increase the rate of reaction?
Increasing the temperature of a reaction increases the average kinetic energy of the molecules involved. This results in more frequent and energetic collisions between the molecules, leading to a higher probability of successful collisions that result in a reaction. In essence, increasing the temperature increases both the number of collisions and the proportion of collisions that have enough energy to overcome the activation energy barrier.
What happening to the motion of the particles in the soup as it cools?
As the soup cools, the motion of the particles decreases. This is because the particles lose kinetic energy due to the decrease in temperature. With lower kinetic energy, the particles move more slowly, eventually leading to a solidification of the soup if it becomes cold enough.
Decreasing the concentration of the reactants decreases the between particles thereby decreasing the probability that two particles will collide with and with?
rate of collisions, the right orientation, enough energy
Kinetic energy plus particle attraction?
When a particle has kinetic energy (movement), it can overcome the attractive forces between particles and potentially break free from a material. This is common in processes like evaporation, where particles gain enough kinetic energy to break free from the liquid's surface tension and become a gas.
Do atoms rearrange when particles collide with enough energy?
Yes, when particles collide with enough energy, atoms can rearrange, leading to chemical reactions or the formation of new substances. This high-energy interaction can break existing bonds and allow atoms to recombine in different configurations. Such rearrangements are fundamental to various processes, including combustion, metabolism, and nuclear reactions.
