State the term used to describe the minimum amount of energy required for two colliding particles to rate
The two molecules must collide with the correct orientation and with a minimum amount of energy (called the activation energy).
When we heat a substance, the energy absorbed is converted into kinetic energy of the particles in it. The faster the particles in it vibrate, move, collide, etc. the higher the temperatureof a substance.So the expected answer is Temperature
In an ideal gas, when particles collide, they undergo elastic collisions, meaning that there is no net loss of kinetic energy during the collision. The total momentum and kinetic energy of the system remain constant, and the particles exchange energy and momentum without any permanent deformation or energy loss. These collisions are random and frequent, contributing to the pressure exerted by the gas on its container.
As gas particles bounce around and collide, they spread to fill the available space of their container. This is because gas particles have high kinetic energy and move freely in all directions due to their random motion.
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.
When particles collide, they transfer energy and momentum.
When particles collide, energy is transferred from one particle to another through interactions like collisions or deceleration. This transfer of energy can result in the particles changing direction, speed, or even producing new particles.
When particles collide and transfer energy or momentum, they can cause changes in the motion or properties of the particles involved. This can result in things like changes in speed, direction, or even the creation of new particles.
When particles collide, they can transfer energy through either elastic collisions where kinetic energy is conserved, or inelastic collisions where some kinetic energy is transformed into other forms such as heat or deformation. The amount of energy transferred depends on the mass and velocity of the particles involved in the collision.
When particles collide, they transfer energy and momentum to each other through interactions such as scattering or absorption. This transfer can result in changes in the direction, speed, or properties of the particles involved in the collision.
Yes, conduction is the transfer of heat energy through a material by particles colliding with each other. The particles transfer kinetic energy to neighboring particles as they collide, causing the heat energy to move through the material.
Temperature is the average kinetic energy of a substance, As a substance gains kinetic energy, its particles begin to move faster. While solids vibrate in place, the particles in a liquid slip and slide past each other, and in gasses, the particles move even faster and further apart. As the kinetic energy of a substance increases, the particles collide with one another with greater force and frequency. Every time particles collide, there is friction between them. Just as your hands get warm when you rub them together, the particles begin to warm as they collide. This is why there is a direct relationship between the temperature and the kinetic energy of a substance.
"Collision above threshold" refers to a scenario in particle physics where two particles collide with enough energy to overcome a certain minimum energy requirement, or threshold. This threshold is necessary for producing new particles or triggering specific interactions. If the energy in the collision exceeds this threshold, it can result in the creation of additional particles, leading to observable effects or reactions.
The two molecules must collide with the correct orientation and with a minimum amount of energy (called the activation energy).
This energy is the activation energy.
When a particle and its antiparticle collide, they annihilate each other and release energy in the form of photons or other particles.
Conduction