A force that bind molecular crystals together, is the force of attraction. Attraction in the subject of Psychology has many types
Proximity - The vast majority of our friends live close to where we live, or at least where we lived during the time period the friendship developed (Nahemow & Lawton, 1975). Obviously friendships develop after getting to know someone, and this closeness provides the easiest way to accomplish this goal. Having assigned seats in a class or group setting would result in more friends who's last name started with the same letter as yours (Segal, 1974).
Association - We tend to associate our opinions about other people with our current state. In other words, if you meet someone during a class you really enjoy, they may get more 'likeability points' then if you met them during that class you can't stand.
Similarity - On the other hand, imagine that person above agrees with you this particular class is the worse they have taken. The agreement or similarity between the two of you would likely result in more attractiveness (Neimeyer & Mitchell, 1988)
Reciprocal Liking - Simply put, we tend to like those better who also like us back. This may be a result of the feeling we get about ourselves knowing that we are likable. When we feel good when we are around somebody, we tend to report a higher level of attraction toward that person (Forgas, 1992; Zajonc & McIntosh, 1992)
Physical Attractiveness - Physical attraction plays a role in who we choose as friends, although not as much so as in who we choose as a mate. Nonetheless, we tend to choose people who we believe to be attractive and who are close to how we see our own physical attractiveness.
So... the force that binds them together, depends on the type of attraction the crystals show to each other.
Molecules are held together by covalent bonds. These may be polar or non-polar. Crystals may be ionic, held together by electrostatic forces (Coulomb forces) or be network covalent such as diamond or silicon dioxide.
all of the above
Cohesive forces
Covalent bonds
The type of bond that holds the atoms together in iron is called metallic bonding. Metallic bonds are formed by the delocalization of electrons between metal atoms, creating a "sea" of electrons that holds the atoms together. This gives metals their unique properties, such as conductivity and malleability.
sodium :)
its the nuclear membrane No, the strong nuclear force holds the nucleus together. The strong nuclear force is caused by the force that hold quarks together.
the force of attraction that holds atoms together is a chemical bond
The: "Strong Force".
the attraction between ions of opposite charge do your part and put answers for novanet cmon
the attraction between ions of opposite charge do your part and put answers for novanet cmon
lattice energy
*the attractive force between opposite electrical charges
They are held together by an electrostatic force causing an ionic bond.
Electrostatic attraction between the oppositely charged particles. For example consider sodium chloride NaCl. If the compound were to be broken down into its ions it would look like Na+ and a Cl- the opposite charges attract and hold the individual ions together forming a crystal lattice, a solid.
Electrostatic attraction between the oppositely charged particles. For example consider sodium chloride NaCl, if the compound were to be broken down into its ions it would look like Na+ and a Cl- the opposite charges attract and hold the individual ions together forming a crystal lattice, a solid.
the gravitational force holds its atmosphere together
The type of bond that holds the atoms together in iron is called metallic bonding. Metallic bonds are formed by the delocalization of electrons between metal atoms, creating a "sea" of electrons that holds the atoms together. This gives metals their unique properties, such as conductivity and malleability.
sodium :)
kinatic force
The strong force holds the nucleus together against the repulsion between the electric charges of the protons.