Spring 2008
... answer D: [The first row d orbitals (trans metals) are n=3, for d orbitals, l=2 (fyi for s, l=0; for p, l=1). For d oribials,ml=-2,-1,0,1, or +1. ms for an orbital can only be -1/2, 0 or ½. Note that for an electron ms can be -1/2 or +1/2) ...
... answer D: [The first row d orbitals (trans metals) are n=3, for d orbitals, l=2 (fyi for s, l=0; for p, l=1). For d oribials,ml=-2,-1,0,1, or +1. ms for an orbital can only be -1/2, 0 or ½. Note that for an electron ms can be -1/2 or +1/2) ...
ORGANIC NOMENCLATURE
... variously been known as phenol, carbolic acid, phenic acid, phenyl hydroxide, hydroxybenzene, phenylic acid and oxobenzene! To help eliminate the proliferation of many names for a compound, a systematic IUPAC naming system has been derived to uniquely name the several million organic different compo ...
... variously been known as phenol, carbolic acid, phenic acid, phenyl hydroxide, hydroxybenzene, phenylic acid and oxobenzene! To help eliminate the proliferation of many names for a compound, a systematic IUPAC naming system has been derived to uniquely name the several million organic different compo ...
PPT - Gmu
... SN1 – Substitution, Nucleophilic, Unimolecular a. Substitution – Nucleophile substitutes for leaving group b. Unimolecular Rate of reaction is dependent on concentration of only one of the reactants It is a first order reaction (sum of exponents in rate equation = 1). c. Multistep reaction, wher ...
... SN1 – Substitution, Nucleophilic, Unimolecular a. Substitution – Nucleophile substitutes for leaving group b. Unimolecular Rate of reaction is dependent on concentration of only one of the reactants It is a first order reaction (sum of exponents in rate equation = 1). c. Multistep reaction, wher ...
1 Chemical Bonding and Molecular Structure
... Define the terms (i) Bond-length (ii) Bond-angle (iii) Bond-energy (iv) Bondorder. Ans : (i) Bond – Length : The equilibrium distance between the nuclei of two bonded atoms in a molecule. It is measured by X-ray diffraction method or by spectroscopic method. It is expressed in picomaters (1 pm = 10– ...
... Define the terms (i) Bond-length (ii) Bond-angle (iii) Bond-energy (iv) Bondorder. Ans : (i) Bond – Length : The equilibrium distance between the nuclei of two bonded atoms in a molecule. It is measured by X-ray diffraction method or by spectroscopic method. It is expressed in picomaters (1 pm = 10– ...
Chem 111 2:30p section Final Exam
... Ch 12.6 – Kinetic theory of gases 7. A 3.28 mol sample of Ar gas is confined in a 62.5 liter container at 62.5 °C. If 1.28 mol of F2 gas is added while maintaining constant temperature, the average kinetic energy per molecule will: ...
... Ch 12.6 – Kinetic theory of gases 7. A 3.28 mol sample of Ar gas is confined in a 62.5 liter container at 62.5 °C. If 1.28 mol of F2 gas is added while maintaining constant temperature, the average kinetic energy per molecule will: ...
chemical equation - HCC Learning Web
... • Writing chemical equations The law of conservation of mass dictates that the total number of atoms of each element on both sides of a chemical equation must match. The equation is then said to be balanced. ...
... • Writing chemical equations The law of conservation of mass dictates that the total number of atoms of each element on both sides of a chemical equation must match. The equation is then said to be balanced. ...
Solving Equilibrium Problems
... Now, fill the table with all known concentrations These are the concentrations that are given in the problem Example - Suppose for the equilibrium reaction below, the initial concentrations of A and B were given as 0.750 M in A and 1.500 M in B The table will look as follows: aA I C E ...
... Now, fill the table with all known concentrations These are the concentrations that are given in the problem Example - Suppose for the equilibrium reaction below, the initial concentrations of A and B were given as 0.750 M in A and 1.500 M in B The table will look as follows: aA I C E ...
IA Velikanova, AK Bolvako PHYSICAL CHEMISTRY
... 8. A system that can transfer both energy and matter to and from its surroundings is called (a) an isolated system; (b) a closed system; (c) an open system; (d) a heterogeneous system. 9. A system in which no thermal energy passes into or out of the system is called (a) adiabatic system; (b) an open ...
... 8. A system that can transfer both energy and matter to and from its surroundings is called (a) an isolated system; (b) a closed system; (c) an open system; (d) a heterogeneous system. 9. A system in which no thermal energy passes into or out of the system is called (a) adiabatic system; (b) an open ...
Elimination Reactions
... base (H2SO4, H3PO4). To favour SN1 over E1, use a good nucleophile. •To favour E2 over SN2, use a strong, bulky non-nucleophilic base. To favour SN2 over E2, use good nucleophiles that are relatively weak bases. •It is important to keep in mind that although you might choose reaction conditions that ...
... base (H2SO4, H3PO4). To favour SN1 over E1, use a good nucleophile. •To favour E2 over SN2, use a strong, bulky non-nucleophilic base. To favour SN2 over E2, use good nucleophiles that are relatively weak bases. •It is important to keep in mind that although you might choose reaction conditions that ...
Reaction Kinetics Basics
... emitted to the troposphere, and their ratio changes dependent on the type of ...
... emitted to the troposphere, and their ratio changes dependent on the type of ...
Chapter 12
... The formula of ethanol is therefore C0.50H1.5O0.25 We divide the subscripts by 0.25 (the smallest subscript) The empirical formula will be C2H6O To calculate the actual, molecular formula we must know the approximate molar mass of the compound in addition to its empirical formula. Example: 3.11. ...
... The formula of ethanol is therefore C0.50H1.5O0.25 We divide the subscripts by 0.25 (the smallest subscript) The empirical formula will be C2H6O To calculate the actual, molecular formula we must know the approximate molar mass of the compound in addition to its empirical formula. Example: 3.11. ...
Aldehydes & Ketones
... • Aldehydes can be further oxidized to carboxylic acids. Ketones do not undergo further oxidation. • Tollen’s test and Benedict’s test utilize this principle to distinguish between the two. ...
... • Aldehydes can be further oxidized to carboxylic acids. Ketones do not undergo further oxidation. • Tollen’s test and Benedict’s test utilize this principle to distinguish between the two. ...
Reactions of Alkenes and Alkynes
... The Diels-Alder Cycloaddition Reaction • A few biological Diels-Alder reactions are known • Biosynthesis of lovastatin involves an intramolecular Diels- ...
... The Diels-Alder Cycloaddition Reaction • A few biological Diels-Alder reactions are known • Biosynthesis of lovastatin involves an intramolecular Diels- ...
Chapter 10 Outline: Alcohols
... Alcohols have pKas in the range of 16-18. Only methanol has an acidity less than water (pKa 15.5 and will protonate water preferentially). In general, all alcohols will be less polar and less acidic than water. What happens when water is in solution with ethanol (pKa = 15.9)? ...
... Alcohols have pKas in the range of 16-18. Only methanol has an acidity less than water (pKa 15.5 and will protonate water preferentially). In general, all alcohols will be less polar and less acidic than water. What happens when water is in solution with ethanol (pKa = 15.9)? ...
Alcohols
... hydrogen bonding between water molecules which is then replaced by weaker dipole-induced dipole forces (H > 0). In addition, long hydrocarbon chains force water molecules to form a cage-like (or clathrate) structure about the nonpolar chain which greatly reduces the entropy of the water molecules i ...
... hydrogen bonding between water molecules which is then replaced by weaker dipole-induced dipole forces (H > 0). In addition, long hydrocarbon chains force water molecules to form a cage-like (or clathrate) structure about the nonpolar chain which greatly reduces the entropy of the water molecules i ...