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How can the corona stop most subatomic particles from escaping into space even though it is not very dense?
The corona is able to stop most subatomic particles from escaping into space due to its strong magnetic fields that can trap and redirect charged particles. Despite being less dense, the corona's magnetic fields play a crucial role in retaining particles within its boundaries.
How do neutron ovecome electrical repulsion of neutro?
There is no electro-static repulsion for neutral particles like neutrons. Baryons -- such as protons and neutrons -- experience an attractive force between each that is very strong but short-ranged. Its name (a not very clever one) is the strong nuclear force. Without this strong force, no elements beyond hydrogen could exist.
Why transition metals have high boiling point?
Because the metallic bonds between their particles are very strong.
Why doesnt a solid flow?
A solid does not flow because its particles are packed closely together and have strong intermolecular forces that hold them in place. As a result, solids have a fixed shape and volume, making it difficult for them to flow like liquids or gases.
How tightly are the particles held together in solids?
In solids, particles are tightly held together in a fixed arrangement, leading to a definite shape and volume. The strong intermolecular forces between particles prevent them from moving freely, resulting in a rigid structure.
Which force has a longer range the electric force or the strong force?
The electric force has a longer range than the strong force. The electric force can act over long distances, such as between charged particles in atoms and molecules, while the strong force is restricted to acting only over very short distances within atomic nuclei.
How can the corona stop most subatomic particles from escaping into space even though it is not very dense?
The corona is able to stop most subatomic particles from escaping into space due to its strong magnetic fields that can trap and redirect charged particles. Despite being less dense, the corona's magnetic fields play a crucial role in retaining particles within its boundaries.
Why is iron hard and strong?
Iron is so hard and strong because bond between the particles of iron is very strong. We know that every matter is made up of small particles. These particles are joined with each other by a force called bond. So as much the bond between the particle strong as the matter will be strong.
What is a Van de Graff generator?
The Van de Graff generator was named after Van de Graff, who invented it. A Van de Graff generator is a device used to store an enormous amount of electric charge (either positive or negative) on a metallic sphere so that a very strong electric field can be produced. This strong electric field can be used to accelerate charged particles like protons, alpha particles etc. In the Van de Graff generator, charges from an electric battery are separated and stored on a metallic sphere which is mounted on an insulating pillar.
Why is water a very weak electric conductor?
the number of charged particles moving around in solution is very, very small. water is undergoing self-ionization.
How do neutron ovecome electrical repulsion of neutro?
There is no electro-static repulsion for neutral particles like neutrons. Baryons -- such as protons and neutrons -- experience an attractive force between each that is very strong but short-ranged. Its name (a not very clever one) is the strong nuclear force. Without this strong force, no elements beyond hydrogen could exist.
Are there strong forces of attractions between particles in a solid?
There are strong forces of attraction between particles in a solid.
Why transition metals have high boiling point?
Because the metallic bonds between their particles are very strong.
In which state of matter are particles packed very tightly together?
Particles are packed very tightly together in the solid state of matter. The particles in a solid are in a fixed position and have minimal movement, resulting in a close arrangement with strong intermolecular forces holding them in place.
How are nuclear force and electric force differnent?
Nuclear force is a short-range force that acts at the subatomic level to hold protons and neutrons together in an atomic nucleus. It is a very strong force compared to the electric force. Electric force, on the other hand, is a force between charged particles that acts over long distances and is responsible for interactions between electrons and protons in atoms and molecules.
How do you cure a headache that feels like very strong electric shocks on the right temple?
just add pressure
Particles in this substance interact very strongly with each other?
The substance likely contains particles with significant attractive or repulsive forces between them, leading to strong interactions. This could result in properties like high viscosity, strong adherence, or cohesive behavior in the substance. Materials with strong interactions between particles often demonstrate unique physical and chemical characteristics.
