Organic Chemistry I (CHEM 2010 and 2012)
... Course Description: The course involves a systematic study of various classes of organic compounds including their physical and chemical properties, nomenclature, stereochemistry, synthesis and reactions. The course also introduces Mass Spectroscopy, Infra-Red Spectroscopy, Nuclear Magnetic Resonanc ...
... Course Description: The course involves a systematic study of various classes of organic compounds including their physical and chemical properties, nomenclature, stereochemistry, synthesis and reactions. The course also introduces Mass Spectroscopy, Infra-Red Spectroscopy, Nuclear Magnetic Resonanc ...
Chemistry Lab 2010
... • Bonds between atoms of the reactants (N2 and O2) are broken, and new bonds (NO) form. • Energy needed to start the reaction (break reactant bonds) is called the Activation Energy (Ea) ...
... • Bonds between atoms of the reactants (N2 and O2) are broken, and new bonds (NO) form. • Energy needed to start the reaction (break reactant bonds) is called the Activation Energy (Ea) ...
9/6/12 - Note: Once it is downloaded, click SET
... o The melting of ice and boiling of water are examples of physical changes that are Endothermic o As the chemicals react, energy is absorbed. Energy is a Reactant - Any change in matter in which energy is released is an Exothermic process o The freezing of water and condensation of water vapor are t ...
... o The melting of ice and boiling of water are examples of physical changes that are Endothermic o As the chemicals react, energy is absorbed. Energy is a Reactant - Any change in matter in which energy is released is an Exothermic process o The freezing of water and condensation of water vapor are t ...
The Baylis–Hillman reaction is an organic reaction of an aldehyde
... The Henry Reaction is a base-catalyzed C-C bond-forming reaction between nitroalkanes and aldehydes or ketones. It is similar to the Aldol Addition, and also referred to as the Nitro Aldol Reaction. If acidic protons are available (i.e. when R = H), the products tend to eliminate water to give nitr ...
... The Henry Reaction is a base-catalyzed C-C bond-forming reaction between nitroalkanes and aldehydes or ketones. It is similar to the Aldol Addition, and also referred to as the Nitro Aldol Reaction. If acidic protons are available (i.e. when R = H), the products tend to eliminate water to give nitr ...
Chap Thirteen: Alcohols
... inversion of configuration incomplete iii. SN2 reaction With phosphorus trihalides PBr3 or PCl3 or PCl5 or P° and I2 to form alkyl halides o Mechanism/ no rearrangement/ inversion of configuration e. Alkyl tosylates (sulfonate esters) by reaction of ROH with sulfonyl chlorides i. Mechanism/ retentio ...
... inversion of configuration incomplete iii. SN2 reaction With phosphorus trihalides PBr3 or PCl3 or PCl5 or P° and I2 to form alkyl halides o Mechanism/ no rearrangement/ inversion of configuration e. Alkyl tosylates (sulfonate esters) by reaction of ROH with sulfonyl chlorides i. Mechanism/ retentio ...
Outline_CH13_Klein
... inversion of configuration incomplete iii. SN2 reaction With phosphorus trihalides PBr3 or PCl3 or PCl5 or P° and I2 to form alkyl halides o Mechanism/ no rearrangement/ inversion of configuration e. Alkyl tosylates (sulfonate esters) by reaction of ROH with sulfonyl chlorides i. Mechanism/ retentio ...
... inversion of configuration incomplete iii. SN2 reaction With phosphorus trihalides PBr3 or PCl3 or PCl5 or P° and I2 to form alkyl halides o Mechanism/ no rearrangement/ inversion of configuration e. Alkyl tosylates (sulfonate esters) by reaction of ROH with sulfonyl chlorides i. Mechanism/ retentio ...
... and they usually require high temperatures and/or long react ion times, and side reactions, such as isomerization, epimerization and rearrangements may be induced by the alkaline conditions. Furthermore, high temperatures are not only detrimental to certain functional groups, but also to the control ...
Energy and Energy Changes Heat Transfer and The Measurement
... • Example 15-1: When 3.425 kJ of heat is added to a calorimeter containing 50.00 g of water the temperature rises from 24.00oC to 36.54oC. Calculate the heat capacity of the calorimeter in J/oC. The specific heat of water is 4.184 J/g oC. • This is a four part calculation. ...
... • Example 15-1: When 3.425 kJ of heat is added to a calorimeter containing 50.00 g of water the temperature rises from 24.00oC to 36.54oC. Calculate the heat capacity of the calorimeter in J/oC. The specific heat of water is 4.184 J/g oC. • This is a four part calculation. ...
Questions 1-2
... (A) are made up of atoms that are intrinsically hard because of their electronic structures (B) consist of positive and negative ions that are strongly attracted to each other (C) are giant molecules in which each atom forms strong covalent bonds with all of its neighboring atoms (D) are formed unde ...
... (A) are made up of atoms that are intrinsically hard because of their electronic structures (B) consist of positive and negative ions that are strongly attracted to each other (C) are giant molecules in which each atom forms strong covalent bonds with all of its neighboring atoms (D) are formed unde ...
Balancing Redox Equations
... Oxidation Number - The charge that an atom would have if the compound in which it were found were ionic. The rules: 1) The sum of the oxidation numbers of the atoms in a molecule must be equal to the overall charge on the molecule. 2) To assign a number to a transition metal ion (not listed in the t ...
... Oxidation Number - The charge that an atom would have if the compound in which it were found were ionic. The rules: 1) The sum of the oxidation numbers of the atoms in a molecule must be equal to the overall charge on the molecule. 2) To assign a number to a transition metal ion (not listed in the t ...