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How do the basic particles of a compound Differ from the basic particle of an element?
If you think to atoms they are similar. But in compounds atoms can form ions.
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What particles differ in number in isotopes of the same element?
neutron
Different isotopes of an element contain different numbers of which particles?
The number of neutrons differ for each isotope of a chemical element.
What particle is involved most in the formation of an isotope?
In isotopes of a particular element, the number of neutrons differ where the number of protons and electrons remain same.
In any element all atoms are?
In any element, all atoms are identical in terms of their number of protons in the nucleus, which determines the element's identity. However, atoms of the same element can differ in the number of neutrons, resulting in isotopes.
What characteristic of strange particle make it strang from other particls?
Strange particles contain a property called "strangeness" that is not present in other particles. This property is a quantum number that relates to how frequently the particle undergoes certain types of decay processes that differ from those of non-strange particles. Strange particles also interact via the strong nuclear force and weak nuclear force, leading to their unique behavior in particle interactions.
How do the basic particles of a compound differ from the basic particles an element?
If you think to atoms they are similar. But in compounds atoms can form ions.
What particles differ in number in isotopes of the same element?
neutron
Are the argon oxygen and water particles similar to the neon particles?
No, argon, oxygen, and water particles differ from neon particles in terms of composition, mass, and properties. Argon and oxygen are elements found in the atmosphere, while water is a compound. Neon is also an element but differs from the others in properties such as density and reactivity.
How do the particle of water that evaporate from an open container differ from the particles that remain?
The chemical structure of water remain unchanged.
What is the significance of the spin 3/2 particle in particle physics and how does its spin property differ from other particles?
The spin 3/2 particle is significant in particle physics because it represents a type of particle with higher spin compared to most other particles. Its spin property differs from other particles in that it has a more complex angular momentum structure, allowing it to interact in different ways with other particles and fields. This makes spin 3/2 particles important in understanding the fundamental forces and interactions in the universe.
How does a particle differ from its anti-particle in terms of their fundamental properties and interactions?
Particles and anti-particles have opposite electric charges, which means they interact differently with electromagnetic fields. They also have opposite quantum numbers, such as lepton number and baryon number. When a particle and its anti-particle meet, they can annihilate each other, releasing energy in the form of photons.
Different isotopes of an element contain different numbers of which particles?
The number of neutrons differ for each isotope of a chemical element.
Which subatomic particle identifies an atom of a particular element?
It's the count of one of the subatomic particles in the nucleus, the proton, that is significant in this regard. For example, an atom is hydrogen if and only if it has one proton in its nucleus. It is neon if and only if it has ten protons in its nucleus.
What subatomic particles can differ between neutral atoms of the same element?
Neutral atoms of the same element can differ in the number of neutrons, which results in different isotopes of the same element. Isotopes have the same number of protons and electrons, but different numbers of neutrons.
What particle is involved most in the formation of an isotope?
In isotopes of a particular element, the number of neutrons differ where the number of protons and electrons remain same.
In any element all atoms are?
In any element, all atoms are identical in terms of their number of protons in the nucleus, which determines the element's identity. However, atoms of the same element can differ in the number of neutrons, resulting in isotopes.
How is particle motion related to evaporation?
KE of particles in a liquid will differ, the faster ones can escape as vapour even at temperatures lower than boiling.
