Topic 1: Chemical Bonding and Water
Covalent bond
A chemical bond that involves sharing a pair of electrons between atoms in a molecule
Buffer
A solution that minimizes changes in pH when extraneous acids or bases are added to the solution.
Covalent nonpolar bond
Bond where atoms share electrons equally; ex: O2
Covalent polar bond
Bond where atoms share electrons unequally; ex: H2O
Explain how atoms interact via covalent and ionic bonds
Covalent bonding involves the sharing of electrons between two or more atoms. Ionic bonds form when two or more ions come together and are held together by charge differences
Explain the difference between polar and nonpolar covalent bonds
Polar means there is unequal sharing of electrons, while nonpolar means equal sharing.
Base
a compound that produces h- ions in solution
Acid
any compound that forms H+ ions in solution
Explain why water is an ideal solvent for biological systems, with reference to properties derived from its ability to form hydrogen bonds.
due to its unique ability to form hydrogen bond allows water to dissolve many substances, facilitate chemical reactions, stabilize biomolecular structures (like proteins and nucleic acids), and maintain a relatively constant temperature in living organisms.
Explain how the existence of polar covalent bonds allows molecules to interact via h bond
he partial positive charge of the hydrogen atoms of one molecule are attracted to the partial negative charge of an atom of a nearby molecule.
pH
hydrogen ion concentration
Ionic bond
the attraction between oppositely charged ions (LiF)
Explain the importance of buffers in biological systems.
the solution of reserve acidity or alkalinity which resists change of pH upon the addition of a small amount of acid or alkali.
Hydrophobic
water hating
Hydrophilic
water loving
Hydrogen bond
weak attraction between a slightly positive hydrogen atom and a slightly negative atom.
Explain the meaning of the pH scale as it relates to the concentration of protons in a solution
where lower pH values correspond to higher proton concentrations (indicating greater acidity) and higher pH values correspond to lower proton concentrations (indicating greater alkalinity).
