C2_revision_slides_V3_+_questions_+_MS_-_H[1]
C2_revision_slides_V3_+_questions_+_MS_-_H[1]

Ionic bonding
Ionic bonding

Ionic bonding - Animated Science
Ionic bonding - Animated Science

Carboxylic Acid Derivatives
Carboxylic Acid Derivatives

Topic 20 IB Chemistry Definitions
Topic 20 IB Chemistry Definitions

... Chemistry: Definitions Topic 20 – Organic Chemistry Chiral center: ...
C2 revision slides V3 + questions + MS
C2 revision slides V3 + questions + MS

CH 10a - faculty.piercecollege.edu
CH 10a - faculty.piercecollege.edu

... What are 4 most abundant elements necessary for life? ...
IB Chemistry Review. Unit I. Topics 2
IB Chemistry Review. Unit I. Topics 2

... period of the periodic table, and __________ as you go from the bottom to the top of a group in the table. 35. In general, as you go across a period in the periodic table from left to right: (1) the atomic radius __________; (2) the electron affinity becomes __________ negative; and (3) the first io ...
Topic 1 Review - Capital High School
Topic 1 Review - Capital High School

... period of the periodic table, and __________ as you go from the bottom to the top of a group in the table. 35. In general, as you go across a period in the periodic table from left to right: (1) the atomic radius __________; (2) the electron affinity becomes __________ negative; and (3) the first io ...
15anespp
15anespp

... Due to lack of reactivity, alkanes need a very reactive species to persuade them to react Free radicals need to be formed by homolytic fission of covalent bonds This is done by shining UV light on the mixture (heat could be used) Chlorine radicals are produced because the Cl-Cl bond is the weakest Y ...
maxwell distribution of gas molecule velocities
maxwell distribution of gas molecule velocities

... Next we integrate the Maxwell function. Since the function is a probability, what value should we get integrating over all accessible speeds? In our studies in chemical kinetics later on we will find that only the most energetic molecules will react. Lower-speed molecules will simply collide and bou ...
Author`s personal copy - Universidade Federal do Pará
Author`s personal copy - Universidade Federal do Pará

... the angle dh  ±15. In MC simulations, the first configuration is randomly generated and using a sample procedure, like the Metropolis technique [18], configurations that reduce the bond energy are selected. Then it was possible to build a configuration chain known as Markov’s chain. The molecular inte ...
BACHELOR OF SCIENCE IN CHEMISTRY MINOR IN BUSINESS
BACHELOR OF SCIENCE IN CHEMISTRY MINOR IN BUSINESS

Final exam questions for Chemical Engineer BSc
Final exam questions for Chemical Engineer BSc

... ideal gas law. Non-ideal gases: the compression factor, the virial equation, the van der Waals equation and its parameters, critical point. Fundamentals of the kinetic theory of gases. The molecular origin of pressure. The Maxwell distribution of speeds for gases. 2. The zeroth and the first law of ...
Kémiai technológia I
Kémiai technológia I

... ideal gas law. Non-ideal gases: the compression factor, the virial equation, the van der Waals equation and its parameters, critical point. Fundamentals of the kinetic theory of gases. The molecular origin of pressure. The Maxwell distribution of speeds for gases. 2. The zeroth and the first law of ...
Chapter 1--Title
Chapter 1--Title

... Each p orbital does not just overlap with one adjacent p but overlaps with p orbitals on either side to give a continuous bonding molecular orbital that encompasses all 6 carbons All 6 p electrons are therefore delocalized over the entire ring and this results in the equivalence of all of the carb ...
Energy and Reactions
Energy and Reactions

... Energy CANNOT be created or destroyed ...
Section 1 Forming New Substances Chapter 9
Section 1 Forming New Substances Chapter 9

SCH4U Unit Test Name
SCH4U Unit Test Name

... i) Complete the following reactions. Include the structure of all products or the missing reactants and add the necessary catalysts where appropriate. (10 marks) ii) On the line provided state the TYPE of reaction indicated by the reaction (5 marks) H3C CH2 ...
Subject Information (overview of syllabus)
Subject Information (overview of syllabus)

... 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 ...
Compounds of Carbon
Compounds of Carbon

... nitrogen, sulfur and chlorine. Proteins, carbohydrates and fats, used by our body contain C, H and O. Proteins can also contain N, S and others. Why does Carbon form so many compounds? As discussed earlier, carbon is an interesting element as it has an electronic configuration of 1s22s22p2. This mea ...
Theoretical problems (official version)
Theoretical problems (official version)

... Real methane hydrate has a non-stoichiometric composition close to CH4·6H2O. At atmospheric pressure, methane hydrate decomposes at –81 °C. However, under high pressures (e.g. on the ocean floor) it is stable at much higher temperatures. Decomposition of methane hydrate produces gaseous methane and ...
Chemistry 201 C Alkenes
Chemistry 201 C Alkenes

Population Analysis
Population Analysis

... This result suggests that we take, 2Ca2 as a measure of the number of electrons "on" or "associated" with center a and 4CaCb ∆ ab as a measure of the number of electrons in the region between and common to both nuclei. This interpretation was put forth by R. Mulliken (J. Chem Phys 1955, 23, 1833) a ...
Mock-UP - GEOCITIES.ws
Mock-UP - GEOCITIES.ws

... Because the carbonyl and hydroxyl groups are directly attached to one another, there is a strong resonance interaction between the two groups, which sharply modifies the properties of the compound functionality from that of either of the two component functionalities. What is the reason for the much ...

Physical organic chemistry

Physical organic chemistry, a term coined by Louis Hammett in 1940, refers to a discipline of organic chemistry that focuses on the relationship between chemical structures and reactivity, in particular, applying experimental tools of physical chemistry to the study of organic molecules. Specific focal points of study include the rates of organic reactions, the relative chemical stabilities of the starting materials, reactive intermediates, transition states, and products of chemical reactions, and non-covalent aspects of solvation and molecular interactions that influence chemical reactivity. Such studies provide theoretical and practical frameworks to understand how changes in structure in solution or solid-state contexts impact reaction mechanism and rate for each organic reaction of interest. Physical organic chemists use theoretical and experimental approaches work to understand these foundational problems in organic chemistry, including classical and statistical thermodynamic calculations, quantum mechanical theory and computational chemistry, as well as experimental spectroscopy (e.g., NMR), spectrometry (e.g., MS), and crystallography approaches. The field therefore has applications to a wide variety of more specialized fields, including electro- and photochemistry, polymer and supramolecular chemistry, and bioorganic chemistry, enzymology, and chemical biology, as well as to commercial enterprises involving process chemistry, chemical engineering, materials science and nanotechnology, and drug discovery.