The "strong nuclear" force, but this can only happen if there are also neutrons, as the "electromagnetic" force would usually repel two protons.
By mushing and crunching together. By mushing and crunching together.
PVA glues will stick paper, cardboard and wood.
Stick them together with superglue
Quarks. Up and down quarks, I think. Google quark.
the solution will be more liquid and will not stick together
Two protons alone won't stick together - their electrostatic repulsion is too strong. If there are also neutrons involved, the strong force can become stronger than the electrostatic repulsion - for example, in the simplest case of Helium-3, two protons and one neutron will stick together. The neutron helps provide the strong force to keep the protons together; the two protons by themselves don't have enough attraction through the strong force to overcome the electrostatic repulsion.
Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.
The strong nuclear force forces the neutrons and protons to " stick " to one another in the nucleus.
Protons stick to neutrons due to the strong nuclear force, which is one of the four fundamental forces of nature. This force is mediated by particles called gluons, which bind quarks together inside protons and neutrons. The strong force is attractive at very short ranges, overcoming the electromagnetic repulsion between positively charged protons, allowing them to coexist within atomic nuclei alongside neutrons. This interaction is crucial for the stability of atomic nuclei.
The atom has protons in it. They are positively charged and attract and hold the electrons. But the protons are snuggled in the nucleus, and they don't like each other. Like charges repel each other. There is a moderating force present that "makes" the protons stick together in there. That's the fact that suffests something else is at work. And it is the neutron that is the nuclear building block that makes it all stick together.
Adhesive force is the attraction between molecules of different substances. It allows substances to stick together, such as water sticking to a glass surface. Adhesive force is important in processes like adhesion, where two different materials are held together.
It allows us to stick stuff together.
If the stick is just sitting there, it doesn't exert any force at all. If you're swinging the stick, the shape of the stick won't matter much; the force will be determined by the speed and mass of the stick. If you are poking with the stick, then the FORCE will be the same whether it is blunt or pointed - but a pointed stick will concentrate the force into a smaller AREA, so the force per area will be a lot higher with a sharp stick than with a blunt one.
Adhension
Cohesion
There are four essential interactions (as far as we know) that take place in nature:electromagnetism, gravitation, the weak interactions, and the strong interactions.Of these, it is the strong interactions, also called strong force, which compel protons and neutrons to stick together and form the atomic nucleus.
A chalkboard typically has a thin layer of iron beneath the surface. This iron layer allows the magnet to stick to the chalkboard. The magnetic force between the magnet and the iron in the chalkboard is what causes them to attract and stick together.