Lecture 9a - University of California, Los Angeles
... the low chemoselectivity of many reagents used in synthetic organic chemistry The main problem is that the use of protective groups usually adds two (or more) steps to the reaction sequence This generates additional waste It also decreases atom economy (=atoms used that are ...
... the low chemoselectivity of many reagents used in synthetic organic chemistry The main problem is that the use of protective groups usually adds two (or more) steps to the reaction sequence This generates additional waste It also decreases atom economy (=atoms used that are ...
2 - My CCSD
... Example (needs to be a double replacement reaction) AgNO3 + NaCl AgCl + NaNO3 1. this is the full balanced equation 2. next, write it as an ionic equation by splitting the compounds into their ions: Ag1+ + NO31- + Na1+ + Cl1- AgCl + Na1+ + NO31Note that the AgCl did not ionize, because it is a “ ...
... Example (needs to be a double replacement reaction) AgNO3 + NaCl AgCl + NaNO3 1. this is the full balanced equation 2. next, write it as an ionic equation by splitting the compounds into their ions: Ag1+ + NO31- + Na1+ + Cl1- AgCl + Na1+ + NO31Note that the AgCl did not ionize, because it is a “ ...
Soft Semiconductor Devices
... theoretical model of Chance, Prock and Silbey [1], which calculates the field pattern and lifetime of a dipole in this geometry. This analytical extension [2] facilitates numerical calculations to predict the outcoupling and optical dissipation mechanisms of an organic light emitting device (OLED), ...
... theoretical model of Chance, Prock and Silbey [1], which calculates the field pattern and lifetime of a dipole in this geometry. This analytical extension [2] facilitates numerical calculations to predict the outcoupling and optical dissipation mechanisms of an organic light emitting device (OLED), ...
4.4 Oxidation Reduction Redox An introduction to
... The species which causes oxidation is called the oxidizing agent. The substance which is oxidized loses electrons to the other. The oxidizing agent is always reduced ...
... The species which causes oxidation is called the oxidizing agent. The substance which is oxidized loses electrons to the other. The oxidizing agent is always reduced ...
chemical reactions
... 2. What mass of carbon dioxide will be produced from the reaction of 175 g of propane, as shown above? 175 g C3H8 x x x = ...
... 2. What mass of carbon dioxide will be produced from the reaction of 175 g of propane, as shown above? 175 g C3H8 x x x = ...
The five main types of redox reactions are combination
... are those in which the oxidation states of the reactants change. This occurs because in such reactions, electrons are always transferred between species. Redox reactions take place through either a simple process, such as the burning of carbon in oxygen to yield carbon dioxide (CO2), or a more compl ...
... are those in which the oxidation states of the reactants change. This occurs because in such reactions, electrons are always transferred between species. Redox reactions take place through either a simple process, such as the burning of carbon in oxygen to yield carbon dioxide (CO2), or a more compl ...
extraction lab 5
... ingredient in Benadryl. Extraction is a technique that involves partitioning a substance between two immiscible liquids. Compounds tend to display preferential solubilities in different solvents. Thus, one can usually dissolve an ionic substance in water easier than in a less polar organic solvent. ...
... ingredient in Benadryl. Extraction is a technique that involves partitioning a substance between two immiscible liquids. Compounds tend to display preferential solubilities in different solvents. Thus, one can usually dissolve an ionic substance in water easier than in a less polar organic solvent. ...
Chemical Equations
... Balancing Chemical Equations • To represent chemical equations correctly, equations must be balanced. • The number of atoms on both sides of the equation must be the same • Law of conservation of mass – the total mass of the reactants in a chemical reaction is equal to the total mass of the product ...
... Balancing Chemical Equations • To represent chemical equations correctly, equations must be balanced. • The number of atoms on both sides of the equation must be the same • Law of conservation of mass – the total mass of the reactants in a chemical reaction is equal to the total mass of the product ...
Unit 3 Organic Chemistry - Corner Brook Regional High
... Aromatic Compounds While C=C double bonds are shorter than C-C single carbon bonds, x-ray crystallography shows that all six C-C bonds in benzene are the same length. Benzene molecules behave like alkanes in chemical reactions, not like the alkenes ...
... Aromatic Compounds While C=C double bonds are shorter than C-C single carbon bonds, x-ray crystallography shows that all six C-C bonds in benzene are the same length. Benzene molecules behave like alkanes in chemical reactions, not like the alkenes ...
Atomic and Molecular Structure
... number goes down by 2, mass number goes down by 4. Least penetrating (piece of paper can stop) Beta- This is an electron that results from a neutron changing to a proton. Atomic number increases by one, mass number stays the same. (Wood or foil will stop) Gamma- High energy Photon- no change in mass ...
... number goes down by 2, mass number goes down by 4. Least penetrating (piece of paper can stop) Beta- This is an electron that results from a neutron changing to a proton. Atomic number increases by one, mass number stays the same. (Wood or foil will stop) Gamma- High energy Photon- no change in mass ...
Polarity of Molecules
... polarities of molecules – these will have a major influence on physical properties of substances…… ...
... polarities of molecules – these will have a major influence on physical properties of substances…… ...
File
... 1. Calculate the free energy change at 200°C 2. Calculate the free energy change if the partial pressure of HBr is 1.50 atm and hydrogen is 0.500 atm at 298 K. The standard free energy change is 106.4 kJ/mol ...
... 1. Calculate the free energy change at 200°C 2. Calculate the free energy change if the partial pressure of HBr is 1.50 atm and hydrogen is 0.500 atm at 298 K. The standard free energy change is 106.4 kJ/mol ...
Flameless Thermal Oxidation
... This case study covers flameless thermal oxidation for the destruction of volatile organic compounds (VOCs) in off-gas emissions. This technology is commercially available from Thermatrix, Inc. and it involves the oxidation of VOCs and chlorinated volatile organic compounds (CVOCs) to primarily carb ...
... This case study covers flameless thermal oxidation for the destruction of volatile organic compounds (VOCs) in off-gas emissions. This technology is commercially available from Thermatrix, Inc. and it involves the oxidation of VOCs and chlorinated volatile organic compounds (CVOCs) to primarily carb ...
Thermodynamics and kinetics
... below ≈1E-5/mL no visible precipitate forms colloids • formation of supersaturated solutions slow kinetics • Competitive reactions may lower free ion concentration • Large excess of ligand may form soluble species AgCl(s) + Cl- <--> AgCl2-(aq) Ksp really best for slightly soluble salts ...
... below ≈1E-5/mL no visible precipitate forms colloids • formation of supersaturated solutions slow kinetics • Competitive reactions may lower free ion concentration • Large excess of ligand may form soluble species AgCl(s) + Cl- <--> AgCl2-(aq) Ksp really best for slightly soluble salts ...
Second exam 2014 with answers
... Last Name: ____________________________________________ First Name: _____________________________________________ Note: There are 10 questions in this exam (check both sides of the sheet). Fill in your answer in the blank space provided immediately following each question. 1/2 point will be subtract ...
... Last Name: ____________________________________________ First Name: _____________________________________________ Note: There are 10 questions in this exam (check both sides of the sheet). Fill in your answer in the blank space provided immediately following each question. 1/2 point will be subtract ...
Chapter in Zumdahl: Chapter #12 Kinetics (2
... apply Kw to determine the [H+] and [OH-] of an aqueous solution. calculate the pH of water at temperatures other than 25’C. identify acid-base conjugate pairs as defined by Lowry-Bronsted. differentiate between the strengths of acid-base conjugate pairs. know the names and formulas of comm ...
... apply Kw to determine the [H+] and [OH-] of an aqueous solution. calculate the pH of water at temperatures other than 25’C. identify acid-base conjugate pairs as defined by Lowry-Bronsted. differentiate between the strengths of acid-base conjugate pairs. know the names and formulas of comm ...