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What would happen in a collision between two particles if there was insufficient kinetic energy and improper geometric orientation?
The particles would rebound and there would be no reaction. The particles would keep bouncing off each other until they eventually react, therefore the rate would be slow.
What else can I help you with?
What are the steps to the collision theory?
1. you should be smart enough to look in your boook. 2. stop using things like answers.com to find science question answers when your teacher wants you to look in your book. 3. and Tara Gloede, stop cheating off of others.
What does a collision requires to be effective?
For a collision to be effective, the colliding particles must have enough kinetic energy to overcome any repulsive forces between them and interact with each other. Additionally, the particles must collide in the correct orientation for the reaction to occur. Finally, the collision must occur with sufficient force to break any existing bonds and allow new bonds to form.
What are two characteristics of an effective collision?
It could be momentum and energy, but I am not 100% sure.
Is it possible that both of the particles can be at rest after collision?
Yes, it is possible for both particles to be at rest after a collision if the initial momentum of the system is zero. In this case, the total momentum before the collision is equal to the total momentum after the collision, which can result in both particles coming to rest.
What is collision frequency?
Collision frequency refers to the rate of collisions between particles in a system or substance. It is influenced by factors such as the concentration of particles, temperature, and the nature of the particles themselves. A higher collision frequency typically indicates a more reactive system.
What is the difference between an effective collision and ineffective collision of reactant particles?
An effective collision between reactant particles results in a chemical reaction, while an ineffective collision does not lead to a reaction because the particles do not have enough energy or correct orientation to break and form bonds. In an effective collision, reactant molecules collide with sufficient energy and in the correct orientation to overcome the activation energy barrier and form product molecules.
What are the steps to the collision theory?
1. you should be smart enough to look in your boook. 2. stop using things like answers.com to find science question answers when your teacher wants you to look in your book. 3. and Tara Gloede, stop cheating off of others.
What are the TWO characteristics of an effective collision?
It could be momentum and energy, but I am not 100% sure.
What does a collision requires to be effective?
For a collision to be effective, the colliding particles must have enough kinetic energy to overcome any repulsive forces between them and interact with each other. Additionally, the particles must collide in the correct orientation for the reaction to occur. Finally, the collision must occur with sufficient force to break any existing bonds and allow new bonds to form.
What are two characteristics of an effective collision?
It could be momentum and energy, but I am not 100% sure.
What does it mean that the collisions of gas particles are perfectly elastic?
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.
Is it possible that both of the particles can be at rest after collision?
Yes, it is possible for both particles to be at rest after a collision if the initial momentum of the system is zero. In this case, the total momentum before the collision is equal to the total momentum after the collision, which can result in both particles coming to rest.
What two requirments must be met before a collision between two reactants particles is effective?
For a collision between two reactant particles to be effective, two key requirements must be met: first, the particles must collide with sufficient energy to overcome the activation energy barrier, allowing the reaction to proceed. Second, the particles must collide with the proper orientation, ensuring that the reactive parts of the molecules are aligned correctly to facilitate the formation of products.
What is collision frequency?
Collision frequency refers to the rate of collisions between particles in a system or substance. It is influenced by factors such as the concentration of particles, temperature, and the nature of the particles themselves. A higher collision frequency typically indicates a more reactive system.
Is the energy of collision between two reactant particles is frequently absorbed by collision with a third particle?
Yes, the energy of collision between two reactant particles can be absorbed by collision with a third particle. This process, known as collision-induced relaxation, can lead to the redistribution of energy among the molecules involved in the collision.
What must particles do to react?
For particles to react, they must collide with enough energy and proper orientation to break existing bonds and form new ones. This collision provides the necessary activation energy for the reaction to proceed. Additionally, the particles must have the correct chemical properties to enable the desired reaction to occur.
What is successful collision?
A successful collision occurs when two reactant particles collide with sufficient energy and correct orientation to react and form products. This is a key concept in understanding reaction rates and is crucial in chemical kinetics. Successful collisions result in the formation of new chemical bonds and the creation of products.
