Lots of forces do that.
It holds things together more sturdily than a nail
They are chemical bonds varying in strength. The strong nuclear force holds atoms together. Electro-static forces hold molecules together. (The positive and negative forces of the electrons and protons create an attraction that keep the atom together.)
This depends upon the two atoms that are held together. The generic name is "intermolecular forces", but there are more specific names depending upon the electronegativity difference between the two atoms.
it is actually a covalent bond my sister said so and shes like rly smart No, actually its chemical bond
Gravitational force is the force which holds each galaxy together . While the rotation of hevenly bodys help then from collapsing down .BUT fact is this that the universe is expanding the closer these galaxy's are more they keep going away from each other fron this is said that universe is expandingby MK
The masses of the objects and the distance between them determines the force of gravity between them. The more massive and closer together they are, the greater the force of gravity.
It is impossible to tell what holds the discs together without more information. Please be more specific in your question. There are many different types of disks, all of which would be held together differently.
binds means that to tie something or to kill someone
The Force links all things together so theres no way Superman could be more powerful than the Force because he is just another being within the Force despite his super powers.
The protons in an atomic nucleus do repel each other, but they are held together by the Strong Nuclear Force, which is stronger than the electrical force that pushes them apart. Within the nucleus, the Strong Force is more than 100 times stronger than the electric force.
bondiest
Gravity is a force pulling together all matter (which is anything you can physically touch). The more matter, the more gravity, so things that have a lot of matter such as planets and moons and stars pull more strongly.