1 Lecture 11. Redox Chemistry Many elements in the periodic table
... Steps for relating half-reaction voltages and activities from the Nernst Equation (4 or 5): Write a balanced half-reaction (see below rules in assigning oxidation numbers). Determine DGr° (from tabulated DGf° values, using molar coefficients and DGf° of e- = 0) Determine Eho from DGr°, or a given va ...
... Steps for relating half-reaction voltages and activities from the Nernst Equation (4 or 5): Write a balanced half-reaction (see below rules in assigning oxidation numbers). Determine DGr° (from tabulated DGf° values, using molar coefficients and DGf° of e- = 0) Determine Eho from DGr°, or a given va ...
Chapter 4 Reactions in Aqueous Solutions
... The oxidation number of Pb decreases; it is reduced; PbO is the oxidizing agent. ...
... The oxidation number of Pb decreases; it is reduced; PbO is the oxidizing agent. ...
benzene - 固体表面物理化学国家重点实验室
... questions about the properties of benzene. If the structure above were correct, benzene would still be expected to be highly reactive because of the three double bonds it contains. • Furthermore, if the benzene ring really did have alternating single and double bonds, the distance between doubly bon ...
... questions about the properties of benzene. If the structure above were correct, benzene would still be expected to be highly reactive because of the three double bonds it contains. • Furthermore, if the benzene ring really did have alternating single and double bonds, the distance between doubly bon ...
Chemical Reactions
... • Spontaneous reactions—occur naturally, the process is unaided. • Example: –Decomposition of dead matter = spontaneous endothermic reactions. (absorbs heat energy) –Forest fire = spontaneous exothermic reactions. (releases heat energy) ...
... • Spontaneous reactions—occur naturally, the process is unaided. • Example: –Decomposition of dead matter = spontaneous endothermic reactions. (absorbs heat energy) –Forest fire = spontaneous exothermic reactions. (releases heat energy) ...
Physical and Chemical Changes
... • Ex: dew in the lawn, water running down mirror, ring on table under glass. ...
... • Ex: dew in the lawn, water running down mirror, ring on table under glass. ...
Syllabus_summer 2014_1411_ZF_learning web
... General Suggestions: Chemistry is a vast field, ranging from the study of simple inorganic salts to enormously complex molecules such as enzymes and nucleic acids in living organisms. In this course, the major topics we will be covering are chemical formulas, reactions, and stoichiometry calculation ...
... General Suggestions: Chemistry is a vast field, ranging from the study of simple inorganic salts to enormously complex molecules such as enzymes and nucleic acids in living organisms. In this course, the major topics we will be covering are chemical formulas, reactions, and stoichiometry calculation ...
Electrons
... ionic compound) if electrons were completely transferred to the more electronegative element. 1. Free elements (uncombined state) have an oxidation number of zero. ...
... ionic compound) if electrons were completely transferred to the more electronegative element. 1. Free elements (uncombined state) have an oxidation number of zero. ...
Electronic Structure - Chemistry Teaching Resources
... the shape of an orbital. l = 0, 1, 2, and 3 (4 shapes) but we use letters for l (s, p, d and f). Usually we refer to the s, p, d and f-orbitals Magnetic Quantum Number, ml. This quantum number describes the orientation of orbitals of the same shape. The magnetic quantum number has integral values be ...
... the shape of an orbital. l = 0, 1, 2, and 3 (4 shapes) but we use letters for l (s, p, d and f). Usually we refer to the s, p, d and f-orbitals Magnetic Quantum Number, ml. This quantum number describes the orientation of orbitals of the same shape. The magnetic quantum number has integral values be ...
Chapter 7 Alkenes and Alkynes I
... Bulky Base Bulky bases such as potassium tert-butoxide have difficulty removing sterically hindered hydrogens and generally only react with more accessible hydrogens (e.g. primary hydrogens) ...
... Bulky Base Bulky bases such as potassium tert-butoxide have difficulty removing sterically hindered hydrogens and generally only react with more accessible hydrogens (e.g. primary hydrogens) ...
Document
... • A chemical actinometer is a device in which gas mixture or solutions sensitive to light are used The working of this device is based upon the fact that a definite amount of the radiation absorbed brings about a definite amount of chemical reaction. The most commonly employed is the uranyl oxalate ...
... • A chemical actinometer is a device in which gas mixture or solutions sensitive to light are used The working of this device is based upon the fact that a definite amount of the radiation absorbed brings about a definite amount of chemical reaction. The most commonly employed is the uranyl oxalate ...
Section 1 and 2
... Why is this important ? How does this relate to HEAT CAPACITY ? • when a system absorbs heat…..the energy is used to promote various kinds of motion remember: the heat capacity of a system tells us it’s ability to store energy • energy may be stored partly in vibrational, rotational motion etc. …..i ...
... Why is this important ? How does this relate to HEAT CAPACITY ? • when a system absorbs heat…..the energy is used to promote various kinds of motion remember: the heat capacity of a system tells us it’s ability to store energy • energy may be stored partly in vibrational, rotational motion etc. …..i ...
Lecture 2
... Hard acids or bases are small and non-polarizable Hard acids are cations with high positive charge (3+ or greater), or cations with d electrons not available for π-bonding Soft acids are cations with a moderate positive charge (2+ or lower), Or cations with d electrons readily availbale for π-bondin ...
... Hard acids or bases are small and non-polarizable Hard acids are cations with high positive charge (3+ or greater), or cations with d electrons not available for π-bonding Soft acids are cations with a moderate positive charge (2+ or lower), Or cations with d electrons readily availbale for π-bondin ...
Level 3: Organics Part I
... Note: Tertiary alcohols cannot be oxidised at all. The –OH can’t form double bonds with the carbon that it is attached to because that carbon is already bonded to three other carbons CH3 H3C ...
... Note: Tertiary alcohols cannot be oxidised at all. The –OH can’t form double bonds with the carbon that it is attached to because that carbon is already bonded to three other carbons CH3 H3C ...
Introduction - INTEC Chemistry Blog
... electrons are much less stable than expected (anti-aromatic) • They will distort out of plane and behave like ordinary alkenes • 4- and 8-electron compounds are not delocalized (single and double bonds) • Cyclobutadiene is so unstable that it dimerizes at low temperature • Cyclooctatetraene has four ...
... electrons are much less stable than expected (anti-aromatic) • They will distort out of plane and behave like ordinary alkenes • 4- and 8-electron compounds are not delocalized (single and double bonds) • Cyclobutadiene is so unstable that it dimerizes at low temperature • Cyclooctatetraene has four ...
Unit 1 Review, pages 138–145
... 63. (a) Ionic compounds have high melting points because their ions are held tightly together in a repeating pattern by strong electrostatic forces. (b) Ionic compounds are hard because their strong bonds resist being stretched. (c) An ionic compound breaks when struck with a hammer because its latt ...
... 63. (a) Ionic compounds have high melting points because their ions are held tightly together in a repeating pattern by strong electrostatic forces. (b) Ionic compounds are hard because their strong bonds resist being stretched. (c) An ionic compound breaks when struck with a hammer because its latt ...
Chemical Reactivity as Described by Quantum Chemical Methods
... interaction. In the years between 1930 and 1950 Pauling [3], Huckel [4], Coulson [5] indeed used quantum mechanical principles but combined them with their chemical intuition thereby gradually creating a new discipline, nowadays called Quantum Chemistry. The Valence Bond approach (after Heitler and ...
... interaction. In the years between 1930 and 1950 Pauling [3], Huckel [4], Coulson [5] indeed used quantum mechanical principles but combined them with their chemical intuition thereby gradually creating a new discipline, nowadays called Quantum Chemistry. The Valence Bond approach (after Heitler and ...
Subject information
... Chemical thermodynamics – first, second and third laws. Changes of phase diagrams. Electrochemical, conductivity, transport numbers, electrolysis. Reaction kinetics orders, Arrhenius equation, composite mechanisms, catalysis. Quantum chemistry, atomic spectra, emission and absorption spectra, rotati ...
... Chemical thermodynamics – first, second and third laws. Changes of phase diagrams. Electrochemical, conductivity, transport numbers, electrolysis. Reaction kinetics orders, Arrhenius equation, composite mechanisms, catalysis. Quantum chemistry, atomic spectra, emission and absorption spectra, rotati ...
Penny Sandwiches - Terrific Science
... Step 1 Using the file or coarse sandpaper, completely remove the copper coating from the edge of both pennies. Pour the lemon juice into one container. Position one penny in the container so that it is standing on its edge against the side of the container. Pour the vinegar into the second container ...
... Step 1 Using the file or coarse sandpaper, completely remove the copper coating from the edge of both pennies. Pour the lemon juice into one container. Position one penny in the container so that it is standing on its edge against the side of the container. Pour the vinegar into the second container ...