Wednesday, October 30, 2019
Why does it matter what shape a molecule has Essay
Why does it matter what shape a molecule has - Essay Example These are the contexts in which the manner in which materials behave are described, whether they are simple gases, or complex biological structures. The bonds between atoms have distinct lengths, energy and direction which distinguish the atomic structure of materials. The shape of a molecule is formed by the spatial relationships of chemically bonded atoms, and this feature contributes significantly to understanding how molecules react with each other. Ionic bonds are formed by the electrostatic attraction between a cation and an anion. The electric field of an ion has spherical symmetry, hence ionic bonds have no directional character. Contrastingly, covalent bonds are formed by the overlap of atomic orbitals. Since the overlap is such that the atomic orbitals can attain maximum overlap, a covalent bond has a directional character. Therefore, ââ¬Å"the shape of a molecule is determined by the angle between two bonds, which in turn is determined by the atomic orbitals that form the bondâ⬠(Iwanami 2006, p.1). Thesis Statement: The purpose of this paper is to investigate why the shape of a molecule is significant in the study of chemistry. ... The attraction between two adjacent non-polar molecules increases in proportion to the area of contact. Generally, the closeness of the tie between the two increases with greater area of van der Waalââ¬â¢s contact attraction and also with the degree of hydrogen bonding. The higher the level of molecular fit, the stronger is the affinity between a molecule and the biomolecular target in therapeutic agents. A therapeutic agent or medicine in aqueous solution is stablized by hydrogen bonding to water and dipolar solvation. It is evident that in medicines, there is a trade-off; they must be sufficiently well solvated to be soluble in water, ââ¬Å"but not so strongly solvated that they cannot be pulled from solution by the target biomoleculeâ⬠(Corey et al 2012, p.55). Noncyclic organic molecules are usually flexible because the barrier to rotation about single bonds having low energy. Therefore, most medicinesââ¬â¢ structures have cyclic subunits with a few preferred conforma tions, sometimes just one. Fig.1a. and 1b. show the conformation of prednisone, a significant anti-inflammatory and immunosuppressive drug, along with the preferred conformation of glucose. Fig.1a. Chemical Structure of Glucose Molecule (Corey et al 2012, p.56) Fig.1b. Prednisone Chemical Structure (Corey et al 2012, p.56) While the molecular formula for glucose is C5H12O6, the formula for prednisone is C21H26O5. ââ¬Å"The polycyclic framework of prednisone is quite rigid and gives the molecule a characteristic shapeâ⬠(Corey et al 2012, p.56). Concurrently, several polar functional groups are situated at specific sites in space, facilitating their optimal binding to the target molecule. The Different Shapes of Molecules Based on Structure There are compounds with a divalent central
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