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What is the force of repulsion between two positively-charged particles?
The force of repulsion between two positively charged particles is directly proportional to the product of their charges and inversely proportional to the square of the distance between them. The force follows Coulomb's law, which states that like charges repel each other.
Why does fusion require such a high temperature before it can begin?
Fusion reactions require high temperatures to overcome the electrostatic repulsion between positively charged atomic nuclei, allowing them to come close enough for the strong nuclear force to bind them together. The high temperature provides the particles with enough kinetic energy to overcome this repulsion and initiate the fusion process.
Why is it would be difficult to inject the nucleus of uranium with a proton?
It would be difficult to inject the nucleus of uranium with a proton because the positive charge of the proton would repel the positively charged uranium nucleus, which is also positively charged. This repulsion creates a barrier that needs to be overcome, requiring a high amount of energy for a successful injection.
What is the attraction or repulsion of charges called?
The attraction or repulsion of charges is called electrostatic force. It arises due to the interaction between positively and negatively charged particles.
What force is responsible for the stability of a particle?
The strong nuclear force is responsible for the stability of particles like protons and neutrons within the atomic nucleus. This force is attractive and acts to overcome the repulsion between positively charged protons, holding the nucleus together.
The force of repulsion of the positively charged protons in the atomic nucleaus is overcome by what?
The quantum strong force.
What is the force of repulsion between two positively charged particles?
electric force
What force is responsible for the the repulsion between two positively charged particles?
Electrostatic force.
What happens to a positively-charged alpha particle directly hits the positively-charged nucleus?
When a positively-charged alpha particle directly hits a positively-charged nucleus, it experiences a strong electrostatic repulsion due to the like charges. This repulsion can cause the alpha particle to be deflected away from the nucleus, preventing it from penetrating further. If the energy of the alpha particle is high enough, it may overcome the repulsive force, resulting in nuclear reactions or the emission of radiation, but typically, it is repelled.
What is the force of repulsion between two positively-charged particles?
The force of repulsion between two positively charged particles is directly proportional to the product of their charges and inversely proportional to the square of the distance between them. The force follows Coulomb's law, which states that like charges repel each other.
Why does fusion require such a high temperature before it can begin?
Fusion reactions require high temperatures to overcome the electrostatic repulsion between positively charged atomic nuclei, allowing them to come close enough for the strong nuclear force to bind them together. The high temperature provides the particles with enough kinetic energy to overcome this repulsion and initiate the fusion process.
Why is it would be difficult to inject the nucleus of uranium with a proton?
It would be difficult to inject the nucleus of uranium with a proton because the positive charge of the proton would repel the positively charged uranium nucleus, which is also positively charged. This repulsion creates a barrier that needs to be overcome, requiring a high amount of energy for a successful injection.
What is the attraction or repulsion of charges called?
The attraction or repulsion of charges is called electrostatic force. It arises due to the interaction between positively and negatively charged particles.
What force is responsible for the stability of a particle?
The strong nuclear force is responsible for the stability of particles like protons and neutrons within the atomic nucleus. This force is attractive and acts to overcome the repulsion between positively charged protons, holding the nucleus together.
What happens to a positively-charged alpha particles that comes the positively-charged nucleus?
It will repel
What happens when two positively charged balloons are pushed together?
When two positively charged balloons are pushed together, they will repel each other due to the like charges. This repulsion will cause the balloons to move away from each other until the force pushing them together is overcome by the repulsive force.
Which is the force of repulsion between two positively-charged particles?
electric force
