A strong enough external force or energy can break a nitrogen bond.
A covalent bond is a strong chemical force that results from the sharing of electrons between atoms. It is a type of intramolecular force that holds atoms together within a molecule.
Melting points of covalent compounds are generally lower than those of ionic compounds. This is because covalent compounds have weaker intermolecular forces compared to the strong electrostatic forces present in ionic compounds, so they require less energy to break apart the molecules.
In the case of a covalent bond, the intramolecular force is stronger than the intermolecular force. The covalent bond holds atoms together within a molecule, while intermolecular forces are weaker interactions between molecules.
When like charged ions are brought closer together in an ionic compound due to an applied force, the repulsion between them increases. This can cause the crystal lattice to deform or even break if the force is strong enough, leading to the compound breaking apart or dissolving.
faulting
A strong enough external force or energy can break a nitrogen bond.
faulting (apex)
No, magnets do not have the ability to break glass. Glass is not a magnetic material, so the force of a magnet is not strong enough to break it.
Yes, compression can result in blank spaces or voids if the force is strong enough to break the crust. This can lead to the formation of faults or fractures in the rock layers due to the intense pressure exerted during compression.
An unbalanced force can cause an object to accelerate or change its direction of motion. It can also cause an object to deform or break if the force is strong enough.
The amount of force needed to break fiberglass will vary depending on the type and thickness of the fiberglass. In general, fiberglass is a strong material and can withstand significant force, but it can be broken with enough impact or pressure.
A covalent bond is a strong chemical force that results from the sharing of electrons between atoms. It is a type of intramolecular force that holds atoms together within a molecule.
Melting points of covalent compounds are generally lower than those of ionic compounds. This is because covalent compounds have weaker intermolecular forces compared to the strong electrostatic forces present in ionic compounds, so they require less energy to break apart the molecules.
Intermolecular forces shown by the dotted lines not by strong covalent bonds.
Elements are not normally what we break (except in the sense of using particle accelerators for transmutation), it's objects that we break, and all objects can be broken if enough force is used, but in general, aluminum objects are pretty durable.
The force strong enough to break the Earth's crust is usually associated with tectonic plate movements. These movements occur due to the movement of molten rock in the Earth's mantle, which exerts pressure on the crust. Subduction zones, where one tectonic plate is forced beneath another, and divergent boundaries, where tectonic plates move apart, are common areas where the Earth's crust can break and create earthquakes and volcanic activity.