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Would there be a stronger gravitational force acting among the particles of a helium nucleus or the particles of a uranium nucleus Explain?
Neither, the strength of the gravitational force between the subatomic particles inside nuclei is negligible compared to the strength of both the weak nuclear force or the strong nuclear force between the same subatomic particles inside those nuclei.
The subatomic particles or units that govern potential chemical reactions among elements are?
Electrons are the subatomic particles that govern potential chemical reactions among elements. They are responsible for forming chemical bonds between atoms by either sharing, gaining, or losing electrons.
Do the particles themselves expand?
No, the particles themselves do not expand. Instead, it is the space between particles that increases during the expansion of the universe. This expansion affects the distance between galaxies and other large-scale structures, but the fundamental properties and sizes of individual particles, such as atoms or subatomic particles, remain unchanged.
What are the similarities between the subatomic particles?
Subatomic particles, including protons, neutrons, and electrons, share several similarities. They are all fundamental components of atoms, contributing to the structure and behavior of matter. Additionally, they possess intrinsic properties such as mass and charge; protons and electrons have positive and negative charges, respectively, while neutrons are neutral. All subatomic particles also exhibit wave-particle duality, behaving both as particles and as waves, which is a fundamental aspect of quantum mechanics.
What subatomic particles are most important in bonds?
The subatomic particles most important in bonds are electrons. Electrons are involved in forming chemical bonds between atoms by being shared, transferred, or attracted to create stable arrangements. Protons and neutrons do not participate directly in bond formation.
What is in between subatomic particles?
Subatomic particles are: neutron, proton, electron.
What is the role of exchange particles in the interaction between subatomic particles?
Exchange particles play a crucial role in the interaction between subatomic particles by mediating the forces between them. These particles are exchanged between particles to transmit the forces that attract or repel them, such as the electromagnetic force or the weak nuclear force. By exchanging these particles, subatomic particles can interact with each other and influence each other's behavior.
What is the difference between subatomic particles and elementary particles?
Subatomic particles are proton, neutron, electron; these particle are some examples of the large group of elementary particles.
Does subatomic particles have the smallest mass of any subatomic particle?
The electron has the smallest mass between subatomic particles: 9,10938291(40).10-31 kg.
Does a subatomic particle have methane?
Any link exist between methane and subatomic particles.
What difference between atom and subatomic?
thesubatomic particles are the particles smaller than an atom
Which subatomic particles are involed in chemical bonding?
Electrons are subatomic particles that are involved in chemical bonding where they form a bond between two atoms.
Relation between subatomic particles and atomic mass unit?
protons and neutrons are subatomic particles and adding the two amounts together gives you the atomic mass unit
What is the relationship between subatomic particles and the formation of matter?
Subatomic particles, like protons, neutrons, and electrons, are the building blocks of matter. They combine to form atoms, which then come together to create molecules and larger structures. In essence, the interactions between subatomic particles determine the composition and properties of all matter in the universe.
What is the force that acts on subatomic particles?
I think it might be electrostatic force! This is the force that acts between the particles!
What are difference between subatomic particles and elementary particles?
Elementary (fundamental) particles have not components; other particles (as protons and neutrons) are composed from other particles.
What is the weak force in nature?
The weak force is one of the four fundamental forces in nature, responsible for certain types of radioactive decay and interactions between subatomic particles. It is involved in the process of transforming one type of subatomic particle into another, such as in beta decay. The weak force is characterized by its short range compared to the other fundamental forces.
