In polar molecular solids' molecules are held together by relatively stronger dipole-dipole interactions.
Yes acetone and dichloromethane are both polar molecules so they are soluble in each other and form polar interactions.
increasing the length of hydrocarbon tails
depending upon the normal environment of the given protein, the secondary, tertiary, and the quaternary structure of the protein depend upon interactions between the amino acids of the protein itself within the structure of the protein, and interactions with the environment surrounding the proteinas an example:a protein that normally exists in an aqueous (mostly water) environment will have a structure in which the non-polar amino acids in large part will be confined to the interior of the structure where they will not interact with the aqueous exterior environment, as well as polar or charged amino acids on the exterior interacting with water, cytosolic fluid, or other polar substances.this occurs because non-polar amino acids do not interact favorably with polar solvents-just as non-polar cooking oil separates from highly polar water- and are at the lowest possible energy state when they are not interacting with polar substances. this normal interaction of proteins makes their usual conformation the most thermodynamically stable which is why they exist in solution in said conformation.Short answer: see belowif the environment is changed from polar to non-polar then the intermolecular interactions between the solvent and the amino acids of the protein will change, which would cause change of conformation of the protein structure, and thus possibly cause denaturation because as we all know from BIO 101: structure determines function.
Is the many foldings and twists resulting from the interactions of the R group side chains; hydrophobic interactions, hydrogen bonding between polar groups, ionic bonding between charged groups, hydrophyllic interactions and covalent bonding between sulfur containing groups. All this contributes to the globular or other shape the mature protein will take.
In polar molecular solids' molecules are held together by relatively stronger dipole-dipole interactions.
Dipole dipole interactions are between two polar molecules. As long as two molecules are polar, they form dipole dipole interactions.
NH3 is polar compound.There are hydrogen bonds.
Yes, It is. Creatine is created by the liver and kidneys from three amino acids. The polar interactions contain hydrogen bonds.
Yes acetone and dichloromethane are both polar molecules so they are soluble in each other and form polar interactions.
it makes them dissolve in water easier.
"Like Dissolves Like" is a concept in chemistry discribing hydrophobic (nonpolar) and hydrophilic (polar) interactions. Polar molecules, in order to reduce unfavorable interactions that require free energy to compensate for, tend to associate with other polar molecules. Non-polar molecules, likewise, associate with other nonpolar molecules. The terms hydrophobic and hydrophilic are used to describe a molecules tendency to associate with water. Polar molecules, using the "like dissolves like" concept associate with water, while nonpolar molecules tend to reduce interactions with water.
From most polar to least:Caffeine, Acetaminophen, Aspirin
Methanol is more polar because is capable of dipole-dipole interactions AND hydrogen bonding while acetone is capable of just dipole-dipole interaction.
It dissolves all kinds of molecules. However, the ones that it dissoves well are molecules that it can hydrogen bond with or molecules that are polar that it can have dipole-dipole interactions with.
They are not that great. Polar Bears are extremely dangerous and can take your head off with a swipe of their paw. Try to avoid contact at all costs. They are especially defensive to their young.
Maybe Van Der Waals interactions?