Strong nuclear forces hold the nucleus together: the nucleus is actually enveloped in what can be described as a nuclear envelope.
Atoms are composed of a nucleus at the center, which contains protons and neutrons bound together by nuclear forces. These nuclear forces, specifically the strong force, are responsible for holding the nucleus together by overcoming the electromagnetic repulsion between positively charged protons. The arrangement and interactions of these nuclear forces play a crucial role in determining the stability and properties of an atom.
The electrical forces inside a nucleus contribute to the nuclear force, also known as the strong nuclear force. This force is responsible for binding protons and neutrons together in the nucleus. It overcomes the electrical repulsion between positively charged protons to hold the nucleus together.
Gluons are the particles that carry the strong force, which is one of the four fundamental forces in nature. Gluons hold quarks together to form protons, neutrons, and other particles in the nucleus of atoms.
Strong forces are able to hold atomic nuclei together because they are powerful enough to overcome the electromagnetic repulsion between positively charged protons in the nucleus. These strong forces, also known as nuclear forces, are responsible for binding protons and neutrons together to form stable atomic nuclei.
the nucleus of an atom has protons and neutrons, and electrons spin in orbitals around the nucleus. since opposites attract, electrons are pulled towards the protons in the nucleus, but their spin-velocity is like planets in a solar system: they keep approximately the same distance from the sun, even though the sun's gravitational pull is extremely strong.
The nucleus is held together by a combination of both the strong and weak forces.The electrons are held in their orbitals about the nucleus by the electromagnetic force.That leaves only gravity, which does not participate in holding atoms together.
Atoms are composed of a nucleus at the center, which contains protons and neutrons bound together by nuclear forces. These nuclear forces, specifically the strong force, are responsible for holding the nucleus together by overcoming the electromagnetic repulsion between positively charged protons. The arrangement and interactions of these nuclear forces play a crucial role in determining the stability and properties of an atom.
The universal forces that hold atoms together are the electromagnetic force and the strong nuclear force. Electromagnetic force attracts negatively charged electrons to positively charged protons in the nucleus, while the strong nuclear force keeps protons and neutrons bound together in the nucleus.
Strong nuclear forces hold the nucleus of an atom together. Weak nuclear forces are involved when certain types of atoms break down Enjoy it for your cheat ! p.s i used it also
intermolecular forces examples are dispersion forces
False. Democritus was an ancient Greek philosopher who proposed the idea of atoms as the basic building blocks of matter. The forces that hold together the nucleus were discovered much later by scientists studying atomic structure.
Forces can hold groups of atoms together in molecules or solids. These forces include covalent bonds, ionic bonds, metallic bonds, and van der Waals forces. They determine the structure, stability, and properties of the material.
Electromagnetic forces exist between particles, such as protons and electrons, which hold atoms together. Strong nuclear forces also act between particles within the nucleus of an atom, binding protons and neutrons together.
The forces that hold the atoms together
Covalent bonds
No - not very likely - electrons are all -ve charged. Ultimately, no-one knows what hold atoms together, although a lot is known, they just get called nuclear forces.
Intra-atomic forces refer to the forces that hold together the components within an atom, such as the nucleus and electrons. These forces include electromagnetic forces between protons and electrons, as well as forces that hold subatomic particles together, like the strong nuclear force and weak nuclear force.