Neutrons. Both protons and neutrons transmit the strong force, but protons alone are not enough, due to their electrostatic repulsion.
Neutrons. Both protons and neutrons transmit the strong force, but protons alone are not enough, due to their electrostatic repulsion.
Neutrons. Both protons and neutrons transmit the strong force, but protons alone are not enough, due to their electrostatic repulsion.
Neutrons. Both protons and neutrons transmit the strong force, but protons alone are not enough, due to their electrostatic repulsion.
Atomic forces of attraction which are among the strongest forces in the universe but operate over an extremely small distances
the gravitaional pulll between the protons and the electrons orbiting outside the nucleus
opposites attract each other .As electron is negatively charged and proton is positively charged so they r attracted by the internuclear forces of each other.
Neutrons. Both protons and neutrons transmit the strong force, but protons alone are not enough, due to their electrostatic repulsion.
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im looking for that answer tooo. lol.
the parts of an atom stay together because the the protons and electrons have opposite charges protons are positive and electrons are negative so the attract each other and hold the atom together. The electrons don't end up in the nucleus because the neutrons neutral charge reflects the electrons to not get too close.
There is a "strong nuclear force" that keeps it together. In larger atoms like uranium, this force is weaker and may break, resulting in fission. If you found this helpful please click trust below
the nucleusSimply: the nucleus is NOT made up of positive and negative electrons. (thought you have to understand, if it were, the opposing charges of the particles would hold it together, NOT make it fall apart)the nucleus is made up of positive particles (protons) and neutral particles (neutrons). electrons are always NEGATIVELY charged and are not in the nucleus.while it is true that atoms are made of positive and negative charges wich attract, the protons in the nucleus should repel based on this theory. the reason why the nucleus stays together is because there is a nuclear force that supercedes the magnetic and gravitational forces. neutrons that have a neutral charge also help the nucleus stay together because they buffer between protons.
Protons = positive. Neutrons = no charge. So, since they're in the nucleus together, they cancel each other out and the energy flowing through the nucleus remains.
well they aren't going to orbit if they have no charge. They hold the protons together. Protons, with the same charge, wouldn't stay together without neutrons.
Protons stay together in the nucleus due to the strong nuclear force, otherwise known as binding energy. This force is the fundamental glue, so to speak, in everything. It overshadows the electromagnetic force by several orders of magnitude, so that the protons do not fly apart due to like charges repelling each other.
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Protons and neutrons are not elementary particles. They're made of particles called quarks (which we're reasonably sure areelementary particles). These quarks are held together in hadrons such as protons and neutrons by something called the color force, also known as the strong nuclear force.The residual color force, which you can sort of think of as "left over" from holding the individual protons and neutrons together, holds the collection of protons and neutrons together in the nucleus.
Lead can only stay together if it has enough nuclear binding energy to overcome the electrostatic repulsive forces of all the protons in the nucleus of its atom. Remember that protons are positive charges, and like charges repel. Only nuclear glue, that binding energy, holds the nucleus together. This binding energy is generated during the process wherein the atomic nucleus was created. The neutrons and protons that are going to be in a nucleus all suffer a slight reduction in their mass. This mass deficit is converted into the binding energy that holds a nucleus together. That's why it takes all those neutrons in the nucleus of an atom to keep the whole thing together.
Not exactly.The thing that holds a proton (or a neutron, or any other baryon or meson) together is the strong nuclear force, mediated by gauge particles known as "gluons".The thing that holds nucleons together is the residualstrong force, which can be thought of in terms of the nucelons exchanging virtual mesons. At very short distances (around a femtometer - a hundred thousandth of an Angstrom), the residual strong force is very ... well ... strong, but it drops off rapidly (roughly exponentially) with distance and at about twice that distance it's swamped by electromagnetic forces. which drop off only as the square of the distance.
protons have a positive electric charge,stay in the nucleus of an atom and are about 4000 times bigger than an electron which orbits the nucleus and has a negative electric charge.
im looking for that answer tooo. lol.
the parts of an atom stay together because the the protons and electrons have opposite charges protons are positive and electrons are negative so the attract each other and hold the atom together. The electrons don't end up in the nucleus because the neutrons neutral charge reflects the electrons to not get too close.
Every atom consists of sub-atomic particles called which neutrons, protons and electrons. Electrons revolve around the nucleus and protons and neutrons stay inside the nucleus.
There is a "strong nuclear force" that keeps it together. In larger atoms like uranium, this force is weaker and may break, resulting in fission. If you found this helpful please click trust below