Alkli metal (i.e li-lithium,Na-sodium,K-Pottasium)has weak interatomic force of atterection
Mercury (Hg) forms a Hg-Hg bond because it is a liquid metal at room temperature with weak interatomic forces. This allows the mercury atoms to come close together and form a weak bond due to the sharing of electrons.
Hydrogen bonding and London Dispersion forces (the latter of which are in all molecules).
Intermolecular forces in argon involve London dispersion forces, which are weak attractive forces caused by temporary fluctuations in electron distribution. These forces are the primary intermolecular force in noble gases like argon, given their lack of permanent dipoles.
The noble gases, such as helium and neon, have the lowest boiling and melting points among the elements. These elements are gases at room temperature and have very weak interatomic forces that require little energy to separate them into individual atoms.
Argon has a low melting point because it is a noble gas with weak interatomic forces. These forces are simply not strong enough to keep the atoms closely packed together in a solid state at higher temperatures. Consequently, argon melts at a relatively low temperature compared to other elements.
If you think to the metal iron - a metallic bonding exist.
Mercury (Hg) forms a Hg-Hg bond because it is a liquid metal at room temperature with weak interatomic forces. This allows the mercury atoms to come close together and form a weak bond due to the sharing of electrons.
Hydrogen bonding and London Dispersion forces (the latter of which are in all molecules).
Intermolecular forces in argon involve London dispersion forces, which are weak attractive forces caused by temporary fluctuations in electron distribution. These forces are the primary intermolecular force in noble gases like argon, given their lack of permanent dipoles.
The forces cancel each other, at least externally.
Helium is a poor conductor of thermal energy because it has low thermal conductivity due to its low atomic mass and weak interatomic forces. As a result, helium does not transfer heat as efficiently as other elements or compounds.
The noble gases, such as helium and neon, have the lowest boiling and melting points among the elements. These elements are gases at room temperature and have very weak interatomic forces that require little energy to separate them into individual atoms.
There are actually four types of force: the strong force and the weak force (both interatomic), electromagnetic force and gravity.
Argon has a low melting point because it is a noble gas with weak interatomic forces. These forces are simply not strong enough to keep the atoms closely packed together in a solid state at higher temperatures. Consequently, argon melts at a relatively low temperature compared to other elements.
Concrete, while strong under compressive forces is very weak under stretching forces. Metal bars or mesh, while strong under stretching forces is very weak under compressive forces. Thus they compliment and mutually reinforce each other: where one is weak the other is strong.To make sure they are both able to work their best, the metal bars or mesh are first stretched then the concrete is pored over them. When the concrete completes setting the metal bars or mesh are released and they now compress the concrete while the concrete keeps them stretched. This is called prestressed concreteand it is much stronger than ordinary concrete.
yes every solid substance has its interatomic space IT MAY VARY
Metal Forces was created in 1988.