Want this question answered?
A hydrogen bond is the electromagnetic attractive interaction of a hydrogen atom and an electronegative atom, such as nitrogen, oxygen or fluorine, that comes from another molecule or chemical group. It is not a true chemical bond. The hydrogen atom has an attraction to another electronegative atom. These attractions can occur between molecules (intermolecularly), or within different parts of a single molecule (intramolecularly)
As far as I know: yes! They involve hydrogen bonded to an electronegative element (like oxygen). This Hydrogen in the molecule is then attracted to another electronegative element (like oxygen, nitrogen etc)
Between a lone pair on an oxygen atom and the slightly positive (due to the electronegative effect of it's bonded oxygen) hydrogen atom on another molecule. It is a dipole-dipole electrostatic attraction.
Hydrogen bonds are electrostatic attractions between a hydrogen atom, bonded to a more electronegative atom of one molecule AND a more electronegative atom of another molecule, but there is no sharing of electrons. In covalent bonding, atoms share electrons to form molecules.
time to get a life bro
Strong hydrogen bonds as the Oxygen is really electronegative and the hydrogen is really unelectronegative. The hydrogen bonds to the oxygen of another molecule.
A hydrogen bond is the electromagnetic attractive interaction of a hydrogen atom and an electronegative atom, such as nitrogen, oxygen or fluorine, that comes from another molecule or chemical group. It is not a true chemical bond. The hydrogen atom has an attraction to another electronegative atom. These attractions can occur between molecules (intermolecularly), or within different parts of a single molecule (intramolecularly)
Hydrogen bond
a hydrogen bond
As far as I know: yes! They involve hydrogen bonded to an electronegative element (like oxygen). This Hydrogen in the molecule is then attracted to another electronegative element (like oxygen, nitrogen etc)
Between a lone pair on an oxygen atom and the slightly positive (due to the electronegative effect of it's bonded oxygen) hydrogen atom on another molecule. It is a dipole-dipole electrostatic attraction.
Hydrogen bonds are electrostatic attractions between a hydrogen atom, bonded to a more electronegative atom of one molecule AND a more electronegative atom of another molecule, but there is no sharing of electrons. In covalent bonding, atoms share electrons to form molecules.
time to get a life bro
Molecules that have charged ends are polar. The poles are only slightly charged, so they do not have the strength of ions, so they do not form chemical bonds with one another, however they do form weak attractions with one another. Water is the classic example of a polar molecule. The oxygen atom is larger and more electronegative than the hydrogen atoms. So the oxygen end of a water molecule has a slight negative charge and the hydrogen end has a slight positive charge. The oxygen atom of one water molecule will form a weak attraction with a hydrogen atom of another water molecule. This type of attraction is called a hydrogen bond.
This attraction is called hydrogen bond, what causes higher boyling point in relation to compounds without such bonds
Water, H2O, is a polar molecule in which the larger, more electronegative oxygen atom develops a partial negative charge, and the smaller, less electronegative hydrogen atoms develop a partial positive charge. The slightly negative oxygen atom of one water molecule is attracted to the slightly positive hydrogen atom of another water molecule. This weak attraction is called a hydrogen bond. Click on the related link for an illustration of the polar water molecule and hydrogen bonding between water molecules. The dashed lines represent the hydrogen bonds and the δ- represents a partial negative charge, and δ+ represents a partial positive charge.
A hydrogen bond is the attractive interaction of a hydrogen atom with an electronegative atom, such as nitrogen, oxygen or fluorine, that comes from another molecule or chemical group. The hydrogen must be covalently bonded to another electronegative atom to create the bond. This type of bond occurs in both inorganic molecules such as water and organic molecules such as DNA.