It has dispersion forces, dipole dipole forces ,and hydrogen bonding.
Source: I'm a chemistry professor
* Dispersion Forces
also known as London Forces (named after Fritz London who first described these forces theoretically 1930) or as Weak Intermolecular Forces or as van der Waal's Forces (namd after the person who contributed to our understanding of non-ideal gas behaviour). * Dipole-dipole interactions * Hydrogen bonds
Recall lattice energy and its relations to properties of solid. The more ionic, the higher the lattice energy. Examine the following list and see if you can explain the observed values by way of ionic attraction:
LiF, 1036; LiI, 737; KF, 821; MgF2, 2957 kJ/mol.
Substances whose molecules have dipole moment have higher melting point or boiling point than those of similar molecular mass, but their molecules have no dipole moment.
Certain substances such as H2O, HF, NH3 form hydrogen bonds, and the formation of which affects properties (mp, bp, solubility) of substance. Other compounds containing OH and NH2 groups also form hydrogen bonds. Molecules of many organic compounds such as alcohols, acids, amines, and aminoacids contain these groups, and thus hydrogen bonding plays a important role in biological science.
Covalent is really intramolecular force rather than intermolecular force. It is mentioned here, because some solids are formed due to covalent bonding. For example, in diamond, silicon, quartz etc., the all atoms in the entire crystal are linked together by covalent bonding. These solids are hard, brittle, and have high melting points. Covalent bonding holds atoms tighter than ionic attraction.
Forces between atom in metallic solids belong to another category. Valence electrons in metals are rampant. They are not restricted to certain atoms or bonds. Rather they run freely in the entire solid, providing good conductivity for heat and electric energy. These behaviour of electrons give special properties such as ductility and mechanical strength to metals. zarceus@Yahoo.com
dispersion forces < dipole-dipole interactions < hydrogen bonds
It depends on what type of liquid it is. In water it is hydrogen bonding (a dipole-dipole attraction). It can also be called polar bonding.
van der Waals forces, and, in some, dipole interaction (the strongest of which is hydrogen bonding).
hydrogen bond dispersion bond dipole bond
slenderman eyeless jack ticci toby the doctor jeff the killer in order from strongest to weakest
There are 3 types of radiation used. The first is alpha,beta, and gamma order from weakest to strongest.
Planets do not have strength, so here are the eight planets in order of their distances from the Sun:1. Mercury2. Venus3. Earth4. Mars5. Jupiter6. Saturn7. Uranus8. Neptune
Strongly polar. It's all about the intermolecular forces. A polar molecule is polar because of the electronegativity differences between the atoms. It results in something called hydrogen bonding, which is extremely powerful. It takes more energy to break stronger bonds...that's why you need hotter temperatures in order to melt polar substances. Nonpolar substances have an electronegativity difference of 0. The only thing holding those substances together are London dispersion forces, which is a random force and the weakest of all the intermolecular forces. It's easier to break these bonds, that's why they have lower boiling points.
Atomic Bonds, strongest to weakest, are:Covalent Bond is the strongestIonic BondHydrogen BondHydrophobic InteractionVan der Waals is the weakest
weakest to strongest: they are in this order: London dispersion, dipole-dipole, hydrogen bonding, ionic
strong nuclear, weak nuclear, electrostatic, gravitational
There are four known fundamental forces.In order from strongest to weakest:Strong nuclear (color) forceWeak nuclear forceElectromagnetismGravity
Protons respond to all 4 of the fundamental forces: strong, weak, electromagnetic, and gravity (from strongest to weakest response in that order).
slenderman eyeless jack ticci toby the doctor jeff the killer in order from strongest to weakest
weakest to strongest: they are in this order: London dispersion, dipole-dipole, hydrogen bonding, ionic
London forces, dipole attractions and hydrogen bonding are some of the examples for intermolecular attractions in the order of increasing strength.
you melt it...
solid liquid gas
Gravity is the weakest force. In order from strongest to weakest is the strong force, the electromagnetic force, the weak force, and gravity. However, this is relative to distance - one could consider that gravity is the strongest force because its effect can be felt over enormous distances, even astronomical distances.
Hydrogen bonds are INTERMOLECULAR FORCES i assume, in the order of weakest to strongest, 1) van der waal forces 2) dipole dipole 3) hydrogen bonds Hydrogen bonds are not INSIDE the molecule. They are the H's in the molecule attracted to other molecules... for example F-H-F then H will be attracted to the F in another F-H-F Hydrogen bonds are the strongest, therefore the more volatile, the higher the boiling point, the higher the melting point... and the higher the viscosity.
Molecules that have strong intermolecular forces are held together more strongly. In order for a substance to boil, it's molecules must separate and gain energy. Because molecules with stronger intermolecular forces are held together more strongly it takes more energy to move them apart, hence the higher boiling point