Chemistry JAMB Past Questions

... 40 g NaOH in 100 g of water 40 g NaOH in 1000 g of water 20 g NaOH in 500 g of solution 20 g NaOH in 1000 g of solution 20 g NaOH in 80 g of solution. Which among the element 1. Carbon 2. Oxygen 3. ...

Unfamiliar Oxidation States and Tkeir Stabilization

... magnetic susceptibility measurements; and (4) X-ray studies. In some instances a combination of two or more of these has been necessary for the complete characterization of the oxidation state in question. Analytical data, in conjunction with a study of the chemical properties of the substance, freq ...

Improved Synthesis of Seven-Coordinate Molybdenum( I I) and

... [W(CN-t-C4H&I]I. A solution of 0.234 g (0.92 "01) of iodine dissolved in 10 mL of methanol was added dropwise with stirring to a solution containing 0.484 g (0.94 mmol) of W(CN-tc4&)&0)3 dissolved in 25 mL of methanol. After the addition was complete, 0.26 g (3.1 "01) of tert-butyl isocyanidewas add ...

The SimSoup Guide - Chris Gordon

... von Helmholtz also took the view that life on Earth arrived from elsewhere in the universe. The idea that life on Earth had an extra-terrestrial origin has a very long history. It can be traced back to the ancient Greek philosopher Anaxagoras. He claimed that the universe is made of an infinite numb ...

Chapter 4 Chemical Reactions and Solution Stoichiometry 4.1

... In a covalent bond, electrons are attracted to two nuclei, but sometimes one nucleus attracts the electrons more strongly than the other. When one nucleus attracts the electrons more strongly, the bonding electrons are located closer to one nucleus than the other. This creates an uneven distribution ...

Study Material - Class- XI- Chemistry

... should contain equal number of molecules. Dalton's Atomic Theory *All substances are made up of tiny, indivisible particles called atoms. *Atoms of the same element are identical in shape, size, mass and other properties. *Atoms of different elements are different in all respects. *Atom is the small ...

Cyclam ``capa` POT.4` to ``capa` POT.3` denticity change

... linkers because they can form amide bonds with a desired material or relevant biomolecules such as proteins or antibodies. Whereas complex-modified solid materials may lead, for example, to sensors with potential analytical applications, the attachment of such compounds to biomolecules may form NO c ...

Catalytic oxidation of ammonia to nitrogen

... give nitric and sulphuric acid. However emission of ammonia causes acidification of the environment in an indirect way. Reaction of ammonia with acidic aerosols in the atmosphere, such as aerosols of sulphuric acid or nitric acid, gives aerosols containing ammonium sulphates or ammonium nitrates [1] ...

Answers - Pearson

... orbital, the 3rd electron from the 2s orbital. Electrons in 2s orbitals are closer to the nucleus and so experience a stronger electrostatic force of attraction. ...

PDF on arxiv.org - at www.arxiv.org.

... The “chemical bond” is a central concept in molecular sciences, but there is no consensus as to what a bond actually is. Therefore, a variety of bonding models have been developed, each defining the structure of molecules in a different manner with the goal of explaining and predicting chemical prop ...

7.1 CHEMICAL SYSTEMS IN EQUILIBRIUM: Dynamic Equilibrium in

... Avogadro's Law says that equal volumes of gases at the same temperature and pressure contain equal numbers of molecules. That means that the gases are going into the reactor in the ratio of 1 molecule of nitrogen to 3 of hydrogen. That is the proportion demanded by the equation. In some reactions yo ...

Preliminary Screening — Technical and Economic Assessment of Synthesis Gas

... In principle, syngas (primarily consisting of CO and H2) can be produced from any hydrocarbon feedstock, including: natural gas, naphtha, residual oil, petroleum coke, coal, and biomass. The lowest cost routes for syngas production, however, are based on natural gas, the cheapest option being remote ...

Spring 2005

... a. (3 pts) What action should you take? b. (3 pts) What action should your lab partner take? 19. (6 pts) Draw the Lewis structure for H2SO4 including any resonance structures. 20. (10 pts) Ammonia is produced commercially by the Haber process: 3 H2 (g) + N2 (g) ! 2 NH3 (g) The yield from this reacti ...

The integration of flow reactors into synthetic organic chemistry

... standard sequence for a reaction today and over a century ago would still be easily recognizable to both bench chemists (Figure 1). From a simple analysis of the individual processing steps it is evident that for a single chemical transformation, which may involve only one bond-forming or bond-break ...

Chapter 1 – Reaction Kinetics Answer Key

... significant than the pressure as we are very close to sea level. This means molar volume is likely a bit smaller than 24.5 L/mol (or 26.5 L/mol for trial two). Dividing by a smaller number would lead to a LARGER MASS of zinc expected. 1.2 Review Questions (page 25) 1. Factors affecting heterogeneous ...

Chapter 15. Chemical Equilibrium

... However, if we start with just ammonia and no nitrogen or hydrogen, the reaction will proceed and N2 and H2 will be produced until equilibrium is achieved. No matter what the starting composition of reactants and products is, the equilibrium mixture contains the same relative concentrations of react ...

PDF - mockies – Mockiesgateacademy

... aims of alchemy that emerged with time were the quest for the elixir of life (the drinking of which would endue the alchemist with immortality), and the search for the philosopher’s stone, which would turn base metals into gold. Improbable as these ideas might seem today, the alchemists continued th ...

PDF File

... concentration dependences in which the maximal rate constant for reaction varied by more than 10-fold, which was accomplished by a 2′-H substitution at position -1 and by varying the pH (38). The affinity of S or P for the ribozyme is very high (see Figure 2B and Results), such that nonspecific loss ...

Document

... • Precipitation reactions are reactions in which a solid forms when we mix two solutions  reactions between aqueous solutions of ionic compounds  produce an ionic compound that is insoluble in water  the insoluble product is called a precipitate ...

Class-XII, Summer assignment

... should not be very low otherwise rate of reaction will become slow. 37. Why is Ka2 << Ka1 for H2SO4 in water ? Ans: H2SO4 is a very strong acid in water largely because of its first ionization to H3O+ and HSO4–. The ionisation of HSO4– to H3O+ and SO42– is very very small. That is why Ka1 ...

Packet 1 - Kentucky Community and Technical College System

... Because water is so abundant it is very useful to use as a solvent. The fact that so many ionic and molecular chemicals are soluble in it makes it even more useful. ...

Chemistry 8.2

... burning charcoal are the products of a combustion reaction. Combustion is one of the five general types of chemical reactions. If you can recognize a reaction as being a particular type, you may be able to predict the products of the reaction. ...

15equil1pp

... An increase in temperature is used to speed up chemical reactions but it can have an undesired effect when the reaction is reversible and exothermic. In this case you get to the equilibrium position quicker but with a reduced yield because the increased temperature moves the equilibrium to the left. ...

Physical Chemistry 3: — Chemical Kinetics

... of electrons from the 2 orbitals of neon atoms with respect to emission from the 2 orbital by a 100 eV light pulse (Schultze et al, Science 328, 1658 (2010)). ...

Chemical Reactions - Effingham County Schools

... Stoichiometry Introduction to Stoichiometry ...

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Photoredox catalysis

Photoredox catalysis is a branch of catalysis that harnesses the energy of visible light to accelerate a chemical reaction via a single-electron transfer. This area is named as a combination of ""photo-"" referring to light and redox, a condensed expression for the chemical processes of reduction and oxidation. In particular, photoredox catalysis employs small quantities of a light-sensitive compound that, when excited by light, can mediate the transfer of electrons between chemical compounds that otherwise would not react. Photoredox catalysts are generally drawn from three classes of materials: transition-metal complexes, organic dyes and semiconductors. While each class of materials has advantages, soluble transition-metal complexes are used most often.Study of this branch of catalysis led to the development of new methods to accomplish known and new chemical transformations. One attraction to the area is that photoredox catalysts are often less toxic than other reagents often used to generate free radicals, such as organotin reagents. Furthermore, while photoredox catalysts generate potent redox agents while exposed to light, they are innocuous under ordinary conditions Thus transition-metal complex photoredox catalysts are in some ways more attractive than stoichiometric redox agents such as quinones. The properties of photoredox catalysts can be modified by changing ligands and the metal, reflecting the somewhat modular nature of the catalyst.While photoredox catalysis has most often been applied to generate known reactive intermediates in a novel way, the study of this mode of catalysis led to the discovery of new organic reactions, such as the first direct functionalization of the β-arylation of saturated aldehydes. Although the D3-symmetric transition-metal complexes used in many photoredox-catalyzed reactions are chiral, the use of enantioenriched photoredox catalysts led to low levels of enantioselectivity in a photoredox-catalyzed aryl-aryl coupling reaction, suggesting that the chiral nature of these catalysts is not yet a highly effective means of transmitting stereochemical information in photoredox reactions. However, while synthetically useful levels of enantioselectivity have not been achieved using chiral photoredox catalysts alone, optically-active products have been obtained through the synergistic combination of photoredox catalysis with chiral organocatalysts such as secondary amines and Brønsted acids.

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Photoredox catalysis