Cholesterol.
The strong forces of attraction between the positive and negative regions of molecules are called electrostatic forces or electrostatic interactions.
When molecules are close together, a slight attraction can develop between the oppositely charged regions of nearby molecules. Chemists call such intermolecular forces of attraction van der Waals forces. (This also occurs in the phenomenon known as Hydrogen-bonding.) What is the alternate of a slight attraction - it is called the covalent bond. Note that an ionic bond is a type of covalent bond.
The slightly negative charge on the oxygen atom of one water molecule forms a weak electrostatic attraction between the slightly positive charge on a hydrogen atom of another water molecule. This is called a hydrogen bond. The hydrogen bonding between the water molecules is why water is highly cohesive.
they will attract if they have equal and opposite charges, such as Na and Cl
The slightly negative charge on the oxygen atom of one water molecule forms a weak electrostatic attraction between the slightly positive charge on a hydrogen atom of another water molecule. This is called a hydrogen bond. The hydrogen bonding between the water molecules is why water is highly cohesive.
A hydrogen bond occurs between the partially positive hydrogen end of a polar molecule and the partially negative end of another polar molecule.
If you're talking about the attraction between molecules of methanol, it's called "hydrogen bonding." It's actually not a chemical bond, just a strong positive-to-negative attraction.
A hydrogen bond.
Magnetic. The nucleus of a hydrogen atom is a proton, which has a positive charge. The electron has a negative charge Opposite charges attract so the negative electron is attracted to the positive nucleus.
No, electrons are never shared or transferred in a hydrogen bond. A hydrogen bond is just an attraction between partially positive particles and partially negative particles.
The main property is the attraction always occurs between cations of hydrogen (H+) and a negatively charged element. Also that the attraction is neither covalent nor ionic - there's no transference or sharing of electrons, only electrostatic attraction between a positive pole (H+) and a negative pole (Elementx-)
Hydrogen bonds are found between water molecules. Hydrogen bonds are the electrostatic attraction (i.e. attraction between a positive charge and a negative one) between a slightly positive hydrogen atom and a slightly negative oxygen, nitrogen or fluorine. So in water, the attraction is between a slightly positive hydrogen atom and a neighbouring slightly negative oxygen atom. This is due to the electronegativity of oxygen, fluorine and nitrogen, which have a high electronegativity. In water, there are two bonds in each molecule, each linking one hydrogen to the oxygen atom. The electrons have less of an attraction to the hydrogen, and so the electron cloud is distorted in favour of the oxygen. So, as there are more electrons present near the oxygen relative to the hydrogen, the oxygen is more negative relative to the hydrogen, so causing polarity. Then, there is electorstatic attraction to neighbouring hydrogen or oxygen atoms.
reflection
The attraction between negative and positive protons help to maintain and atom's structure.
The strong forces of attraction between the positive and negative regions of molecules are called electrostatic forces or electrostatic interactions.
It is due to the hydrogen bonds holding water molecules together. Hydrogen bonds are the weekest bonds because they are the slight attraction between a positive and a negative charge.The reason water molecules have a positive and negative charge is because they are polar- the electrons of H2O are shared unevenly in their covalent bonds. A water molecule is held together with polar covalent bonds. Water molecules are held together by hydrogen bonds.
A positive ion is attracted to a negative ion.