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comparing to an atom , the particles of it are very very small , their
collision may be effective inside that atom but we could not measure the effectiveness since it takes place for a very very small time (fempto seconds) than the size of electron. Hence we think that the particle collisions are ineffective .
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What factors increases the reaction rate by increasing particle speed?
Increasing the temperature of the system leads to higher particle speeds, increasing the chances of collisions between reactant molecules. This in turn increases the reaction rate as a higher proportion of collisions will have sufficient energy to overcome the activation energy barrier.
What is a particle has more energy?
A particle with more energy will typically have a higher speed or greater mass compared to a particle with lower energy. This increased energy can result in more interactions with other particles and greater impact during collisions.
What reaction means that's the particle size is smaller thus causing more opportunities for collisions hence the reaction rate increases?
Increasing the surface area of reactants like breaking a solid into smaller pieces increases the frequency of collisions between particles, leading to a higher reaction rate. This is because smaller particles expose more reactive sites and allow for more collisions to occur, increasing the chances of successful reactions taking place.
Are the most frequent victims of collisions between vehicles and pedestrians.?
children
What types of collisions can result from unsafe passes?
Unsafe passes can result in rear-end collisions, head-on collisions, side-swipe collisions, or collisions with fixed objects such as guardrails or trees. These collisions are often caused by sudden lane changes, improper spacing between vehicles, or misjudgment of oncoming traffic.
How particle collisions that affect the rate of chemical reactions?
When the number of particle collisions increase the rate of chemical reactions also increase.
What is an ineffective particle?
An ineffective particle is a subatomic particle that does not interact strongly with matter, making it difficult to detect and study. These particles are often elusive and have properties that challenge our current understanding of particle physics. Examples include neutrinos and hypothetical particles like dark matter.
What are the advantages of analyzing particle collisions in the lab frame?
Analyzing particle collisions in the lab frame allows researchers to accurately measure the properties of particles involved, such as momentum and energy. This helps in understanding the fundamental forces and interactions at play in the collisions, leading to advancements in particle physics research.
What effect does stirring the mixture have on the system?
the number of particle collisions increases
If a ring particle survived the age of the solar system how many collisions would it undergo?
It would depend on the location of the ring particle and the density of particles in the ring system. If the particle is in a sparse region, it may experience very few collisions, while in a denser area it could collide more frequently. Ultimately, it's difficult to predict an exact number without more specific information about the particle's environment.
All collisions between gas particles are considered to be perfectly what?
All collisions between gas particles are considered to be perfectly elastic, meaning there is no loss of kinetic energy during the collision. This assumption allows for the conservation of momentum and energy to be applied to gas particle interactions.
Are all collisions effective?
No, not all collisions are effective. In chemical reactions, collisions need to occur with enough energy and proper orientation for the reaction to take place. Ineffective collisions do not result in a chemical reaction.
What network hardware allows most traffic collisions?
A hub creates the most traffic collisions.
Which describes the path of a gas particle between collisions with other particles?
Straight line
How many number of scalar equations are needed to determine the motion of an unconstrained N particle system?
The answer will depend on whether or not there is any acceleration (linear or other) and whether or not particle collisions occur.
What is the significance of pomerons in the study of high-energy particle collisions?
Pomerons are important in the study of high-energy particle collisions because they help explain the behavior of particles at very high energies. They are theoretical particles that represent the exchange of energy and momentum between colliding particles. Understanding pomerons can provide insights into the underlying physics of these collisions and help researchers make predictions about the outcomes of experiments.
What happens when energy is removed from a particle?
When energy is removed from a particle, its kinetic energy decreases, which can slow down or change its motion. The particle may lose energy through collisions with other particles, radiation, or other forms of energy transfer.
