Chapter 4 - U of L Class Index
... tells us what compounds we started with (reactants), what we did to them (reaction conditions) and what compounds we ended up with (products). ...
... tells us what compounds we started with (reactants), what we did to them (reaction conditions) and what compounds we ended up with (products). ...
april test
... Use Hess’s law to calculate the standard enthalpy of formation of carbon disulfide (CS2) from its elements, given that C(graphite) + O2(g) CO2(g) ...
... Use Hess’s law to calculate the standard enthalpy of formation of carbon disulfide (CS2) from its elements, given that C(graphite) + O2(g) CO2(g) ...
Spectrum05
... I first put reactants together the forward reaction starts. Since there are no products there is no reverse reaction. As the forward reaction proceeds the reactants are used up so the forward reaction slows. The products build up, and the reverse reaction speeds up. ...
... I first put reactants together the forward reaction starts. Since there are no products there is no reverse reaction. As the forward reaction proceeds the reactants are used up so the forward reaction slows. The products build up, and the reverse reaction speeds up. ...
Spectra
... Mass Spectroscopy • Mass spectroscopy is a powerful tool in organic chemistry that can be used to provide information about the molecular formula and structural sub units • When it is combined with techniques of infrared and NMR it can be very useful in identifying unknown compounds ...
... Mass Spectroscopy • Mass spectroscopy is a powerful tool in organic chemistry that can be used to provide information about the molecular formula and structural sub units • When it is combined with techniques of infrared and NMR it can be very useful in identifying unknown compounds ...
Worksheets for this unit
... 1. The number of carbon compounds far exceeds the number of all other types of chemical compounds. This is largely due to the ability of carbon to form different types of bonds. Discuss these ...
... 1. The number of carbon compounds far exceeds the number of all other types of chemical compounds. This is largely due to the ability of carbon to form different types of bonds. Discuss these ...
Photosynthesis has 3 stages
... to form oxygen gas. Hydrogen ions accumulate inside thylakoids, setting up a (7)________________ _____________ that provides energy to make (8)________. Page 102 STAGE THREE We will cover stage three when we compare the Calvin Cycle to the Kreb’s cycle. But here are a couple of questions for you. Th ...
... to form oxygen gas. Hydrogen ions accumulate inside thylakoids, setting up a (7)________________ _____________ that provides energy to make (8)________. Page 102 STAGE THREE We will cover stage three when we compare the Calvin Cycle to the Kreb’s cycle. But here are a couple of questions for you. Th ...
Fisher Esterification - OpenBU
... For your experiment, we will be using microwave irradiation as the heat source to accelerate the reaction. Microwaves are a good source of energy for generating a localized source of heat that is more efficient than an oil bath. In this way, reactions can occur faster because the reaction flasks can ...
... For your experiment, we will be using microwave irradiation as the heat source to accelerate the reaction. Microwaves are a good source of energy for generating a localized source of heat that is more efficient than an oil bath. In this way, reactions can occur faster because the reaction flasks can ...
Hydrothermal Reactions from Sodium Hydrogen Carbonate to Phenol
... rocks.11,12 Generally, the products of this process were methanol, methane, and/or formate, which do not seem valuable for the origin of life. Organic synthesis based on CO2 was also studied.13 The production of phenol from solid CO2 reduced by Fe3O4 in the supercritical state was reported,14 but su ...
... rocks.11,12 Generally, the products of this process were methanol, methane, and/or formate, which do not seem valuable for the origin of life. Organic synthesis based on CO2 was also studied.13 The production of phenol from solid CO2 reduced by Fe3O4 in the supercritical state was reported,14 but su ...
Electrophilic Additions to Double Bonds
... Better representation of equilibrium geometries than plastic models Able to compute relative strain energies Cheap to compute Can be used on very large systems containing 1000’s of atoms Lots of empirical parameters that have to be carefully tested and calibrated Cons Limited to equilibr ...
... Better representation of equilibrium geometries than plastic models Able to compute relative strain energies Cheap to compute Can be used on very large systems containing 1000’s of atoms Lots of empirical parameters that have to be carefully tested and calibrated Cons Limited to equilibr ...
down
... Case of F2, ζ values of F2 are greater than H2+(8.65 for 1s, 5.1 for 2p) and it makes rapidly decrease of probability See the shape of MOs in F2. → difference between H2+ and F2 1σg: to small to overlap(so localized) → very small contribution to bonding 3σu*: more nodal plane than case of H2+ 1πu: s ...
... Case of F2, ζ values of F2 are greater than H2+(8.65 for 1s, 5.1 for 2p) and it makes rapidly decrease of probability See the shape of MOs in F2. → difference between H2+ and F2 1σg: to small to overlap(so localized) → very small contribution to bonding 3σu*: more nodal plane than case of H2+ 1πu: s ...
Organic and Biochemical Molecules
... Geometric isomers of alkenes – If each sp2 C has 2 different groups attached it will have two possible orientations due the fact that pi bonds do not allow for free rotation – If each sp2 C has only one hydrogen you can classify the structure as cis or trans ...
... Geometric isomers of alkenes – If each sp2 C has 2 different groups attached it will have two possible orientations due the fact that pi bonds do not allow for free rotation – If each sp2 C has only one hydrogen you can classify the structure as cis or trans ...
Chemistry of Carbon
... All of life is built on carbon Cells ~72% H2O ~25% carbon compounds ...
... All of life is built on carbon Cells ~72% H2O ~25% carbon compounds ...
CHE-06 year 2004
... CH3CH2CH2Br + CH3OH CH3CH2CH2OCH3 + HBr or CH3CH2CH2Br + CH3O¯ CH3CH2CH2OCH3 +Br¯ ...
... CH3CH2CH2Br + CH3OH CH3CH2CH2OCH3 + HBr or CH3CH2CH2Br + CH3O¯ CH3CH2CH2OCH3 +Br¯ ...
Q 1: Molecular formula of BHA is
... Q 23: Oxidation product of glucose with Br2 water is a gluconic acid b saccharic acid ...
... Q 23: Oxidation product of glucose with Br2 water is a gluconic acid b saccharic acid ...
Notes 2 Balancing
... • The Law of Conservation of Mass • States that in ordinary chemical or physical changes, mass is neither created nor destroyed. • React vinegar and baking soda • Produces a gas (which “floats” away). • The products including this gas, if captured, is the same mass per mole as the reactants consumed ...
... • The Law of Conservation of Mass • States that in ordinary chemical or physical changes, mass is neither created nor destroyed. • React vinegar and baking soda • Produces a gas (which “floats” away). • The products including this gas, if captured, is the same mass per mole as the reactants consumed ...
Biological Chemistry and Macromolecules
... Proteins Enzymes are special proteins that are used to speed up ...
... Proteins Enzymes are special proteins that are used to speed up ...
Chem 130 Fall 2004 Exam 3 Study Guide Chapter 8.1
... Conversion into alkyl halides (with HCl, HBr, SOCl2) Dehydration to form alkene (with H2SO4, concentrated, ∆) Oxidation: Primary alcohol to aldehydes (with PCC) Primary alcohol to carboxylic acids (with CrO3 or K2Cr2O7) Secondary alcohol to ketones (with PCC or CrO3 or K2Cr2O7) Tertiary alcoho ...
... Conversion into alkyl halides (with HCl, HBr, SOCl2) Dehydration to form alkene (with H2SO4, concentrated, ∆) Oxidation: Primary alcohol to aldehydes (with PCC) Primary alcohol to carboxylic acids (with CrO3 or K2Cr2O7) Secondary alcohol to ketones (with PCC or CrO3 or K2Cr2O7) Tertiary alcoho ...
PowerPoint Chapter 14 - Preparatory Chemistry
... • whether a chemical bond is nonpolar covalent, polar covalent, or ionic. • which atom in a polar covalent bond is partial negative and which is partial positive. • which atom in an ionic bond forms the cation and which forms the anion. • which of two covalent bonds are more polar. ...
... • whether a chemical bond is nonpolar covalent, polar covalent, or ionic. • which atom in a polar covalent bond is partial negative and which is partial positive. • which atom in an ionic bond forms the cation and which forms the anion. • which of two covalent bonds are more polar. ...
CST REVIEW Percent Error 1. 2. What is the formula for density?
... 15. For the nonmetals only, which is an active non-metal and which is an inactive non-metal? 16. Know how to use the periodic table to determine the number of electrons available for bonding. 17. How many valence electrons in each group? 1A 3A 6A 8A 7A Cl Sr N 18. Know how many valence electrons are ...
... 15. For the nonmetals only, which is an active non-metal and which is an inactive non-metal? 16. Know how to use the periodic table to determine the number of electrons available for bonding. 17. How many valence electrons in each group? 1A 3A 6A 8A 7A Cl Sr N 18. Know how many valence electrons are ...
Chapters 9 and 10
... ii. Indicate the total number of sigma (σ) bonds and the total number of pi (π) bonds in the molecule ...
... ii. Indicate the total number of sigma (σ) bonds and the total number of pi (π) bonds in the molecule ...