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What happen when the positively charges Alpha particle directly hits the positively charges nucleus?
When a positively charged alpha particle approaches a positively charged nucleus, it experiences a strong electrostatic repulsion due to the like charges. This repulsion can prevent the alpha particle from getting too close, resulting in scattering rather than a direct hit. If the alpha particle has sufficient energy, it may overcome the repulsive barrier and get close enough to undergo nuclear reactions, such as fusion or the emission of other particles. However, in most cases, it will simply be deflected.
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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 happens when the positively charged alpha particle directly hits the positively charged nuckeus?
When a positively charged alpha particle collides with a positively charged nucleus, they experience a strong repulsive force due to their like charges. This repulsion can prevent the alpha particle from penetrating the nucleus. If the energy of the alpha particle is sufficiently high, it may overcome the Coulomb barrier and interact with the nucleus, potentially leading to nuclear reactions such as fusion or scattering. However, under normal circumstances, the alpha particle will simply be deflected away from the nucleus.
What happens to a positively-charged alpha particle directly hits the positively-charge 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 rather than penetrate it. If the energy of the alpha particle is not sufficient to overcome the Coulomb barrier, it will simply bounce off. In some cases, if the particle approaches closely enough, it might interact through nuclear forces, but this is less common in direct collisions.
Chances of the alpha particle directly hitting the nucleus?
An alpha particle is a helium nucleus, and as such it has 2 protons and 2 neutrons and no electrons. Thus, it is positively charged. This makes it very unlikely that it will hit the nucleus which is also positively charged and will repel the alpha particle. The only way to get the alpha particle to hit the nucleus is to accelerate it to very high speeds.
What happens when positively charged alpha hits directly positively charged atom?
When a positively charged alpha particle encounters a positively charged atom, they experience a repulsive electrostatic force due to their like charges. This repulsion can prevent the alpha particle from getting too close to the atom's nucleus, potentially causing it to deflect or scatter away. If the alpha particle has enough kinetic energy, it may overcome the repulsion and interact with the atom in other ways, but direct collisions are typically repelled.
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 happens when the positively charged alpha particle directly hits the positively charged nuckeus?
When a positively charged alpha particle collides with a positively charged nucleus, they experience a strong repulsive force due to their like charges. This repulsion can prevent the alpha particle from penetrating the nucleus. If the energy of the alpha particle is sufficiently high, it may overcome the Coulomb barrier and interact with the nucleus, potentially leading to nuclear reactions such as fusion or scattering. However, under normal circumstances, the alpha particle will simply be deflected away from the nucleus.
What happens to a positively-charged alpha particle directly hits the positively-charge 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 rather than penetrate it. If the energy of the alpha particle is not sufficient to overcome the Coulomb barrier, it will simply bounce off. In some cases, if the particle approaches closely enough, it might interact through nuclear forces, but this is less common in direct collisions.
What happens to a positively-charged alpha particles that comes the positively-charged nucleus?
It will repel
Chances of the alpha particle directly hitting the nucleus?
An alpha particle is a helium nucleus, and as such it has 2 protons and 2 neutrons and no electrons. Thus, it is positively charged. This makes it very unlikely that it will hit the nucleus which is also positively charged and will repel the alpha particle. The only way to get the alpha particle to hit the nucleus is to accelerate it to very high speeds.
Positively charged particle in the nucleus is?
This particle is the proton.
A positively charged particle has great difficulty penetrating a target nucleus because the target nucleus has what?
A positively charged particle has great difficulty penetrating a target nucleus because of the strong repulsive electrostatic force between the positively charged particle and the positively charged protons in the nucleus. This repulsion acts as a barrier that prevents the particle from approaching the nucleus closely.
What is the name or a positively charged particle in the nucleas?
The name of a positively charged particle in the nucleus is proton.
What happens to a positively-charged alpha particle that comes near the positively charged nucleus?
This particle is rejected.
What happens to a positively-charge alpha particle that comes near the positively-charged nucleus?
This particle will be rejected.
What is a positively charged particle you the nucleus?
"proton"
What is a subatomic particle that is positively charged?
This particle from the atomic nucleus is the proton.
