Solutions for Chapter 19.2: Structure and Reactivity of Carboxylic Acid Derivatives
Full solutions for Organic Chemistry, | 9th Edition
Solutions for Chapter 19.2: Structure and Reactivity of Carboxylic Acid DerivativesGet Full Solutions
In IR spectroscopy as well as UV-VIS spectroscopy, a plot that measures the percent transmittance or absorption as a function of frequency.
The closeness of a measurement to the true value of the quantity that is measured. (1.8)
Next to a carbon-carbon double bond.
Particles that are identical to helium-4 nuclei, consisting of two protons and two neutrons, symbol 4 2He or 4 2a. (Section 21.1)
The strain that arises when a bond angle is either compressed or expanded compared to its optimal value.
A term used to classify benzene and its derivatives.
The mass of an atom in atomic mass units. (3.1)
When applying Woodward-Fieser rules, the groups attached to the chromophore.
axis of symmetry
An axis about which a compound possesses rotational symmetry.
bonding atomic radius
The radius of an atom as defined by the distances separating it from other atoms to which it is chemically bonded. (Section 7.3)
The ability of the atoms of an element to form bonds with one another. (22.3)
In bond-line structures, agroup going behind the page.
An elimination reaction involving the loss of H and a halogen (such as Cl, Br, or I).
A lone pair or charge that is participating in resonance.
In NMR spectroscopy, a signal that is comprised of two peaks.
The point in a titration at which the added solute reacts completely with the solute present in the solution. (Section 4.6)
free induction decay
In NMR spectroscopy, a complex signal which is a combination of all of the electrical impulses generated by each type of proton.
A spectrum that contains radiation at only certain specific wavelengths. (Section 6.3)
The sloweststep in a multistep reaction which determines the rate of the reaction.
The dissolving medium of a solution; it is normally the component of a solution present in the greater amount. (Section 4.1)