The collision theory of reactions

... than the concentration of O atoms. How significant is reaction 6?  do assignment 7, p.69 Chlorine atoms are particularly effective at removing ozone. A single atom can remove about 1 million ozone molecules. Add equations 6 and 7 together to produce the equation for the overall reaction caused by c ...

ACTIVATION ENERGY VARIATION DURING IGNITION OF

... process.From the analysis of the chemical heat flux during the transition from surface to gas-phase ignition, an anti Arrhenius behaviour of the overall chemical reaction, as well as a significant variation of the apparent activation energy for the surface reaction were found. The results were expla ...

Chemistry 1 - Edexcel

... (i) Place a tick (9) in one box in each row of the table to show the best method of separation for each mixture. ...

File

... Lesson 2.4: Combustion Reactions In some areas of the Arctic, large amounts of methane, CH4 (g) are entering the atmosphere. Where is it coming from? As the climate becomes warmer and the ground thaws bacteria produce methane from the remains of dead plants and animals. How do scientists find the me ...

Ch. 6: Chemical Reactions Study Guide

... A chemical equation is balanced by changing or adding coefficients. A balanced chemical equation indicates both the number of particles of reactants and products and the number of moles. In a balanced chemical reaction, the total mass of the products always equals the total mass of the reactants. In ...

CHEMISTRY A

... (d) Percentage yield has been used for many years to measure the ‘success’ of a reaction. Recently, chemists have turned their thoughts also to the atom economy of a reaction. (i) ...

AP Chemistry Unit 3 Test Review Topics Covered: Gases Liquids

... 12) On a mountaintop, it is observed that water boils at 90°C, not at 100°C as at sea level. This phenomenon occurs because on the mountaintop the A) equilibrium water vapor pressure is higher due to the higher atmospheric pressure B) equilibrium water vapor pressure is lower due to the higher atmo ...

Balance this equation:

... The diagram shows iron oxide, Fe2O3, and carbon monoxide, CO reacting to form iron and carbon dioxide. Which of the following is the correct full balanced chemical equation for the reaction depicted? ...

MOLES, MASS, and VOLUME OF A GAS

... Ammonia (NH3) is produced from the reaction between Nitrogen (N2) and Hydrogen (H2). a) What is the maximum mass of ammonia that can be produced from a mixture of 1 X10 3 g N2 and 5 x 102 g H2? b) what mass, of which starting material, will be left over? ...

Ch.5

... NaOCl + KI + HC2H3O2 ---> I2 + NaCl + KC2H3O2 + H2O ...

Chemical Equations

... Use solubility table to see if a precipitate will form ...

Sustainable Hydrogen and Electrical Energy Storage 5 Interested in

... Safety ...

Practice Questions Section 2

... Write balanced chemical equations for each of the following. Pay close attention to the physical states! Also - you must include the charge when writing ions, otherwise your answer is incorrect. Do not balance these equations using fractions for coefficients. sulfur dioxide gas combines with oxygen ...

www.tutor-homework.com (for tutoring, homework help, or help with

... standard conditions, 2.75 L of a gas weighed 5.39 g. The gas is F2. N2O. NF3. N2. NO. ...

Problem Set: Empirical and Molecular Formulas

... 34.0g HCl needs 24.2 g Al(OH)3 to react completely, 12.0g Al(OH)3 is not enough 3. Ammonia, NH3, is used throughout the world as a fertilizer. To manufacture ammonia, nitrogen, N2, is combined with hydrogen, H2, in a synthesis reaction. a) Write a balanced chemical equation for the formation of ammo ...

AP Chemistry Unit 3 Test Review Topics Covered: Gases Liquids

... (A) The volume of the gas increase. (B) The pressure of the gas decreases. (C) The average speed of the gas molecules remains th same. (D) The total number of gas molecules remains the same. (E) The average distance between the gas molecules increases. 8) Equal numbers of moles of He(g), Ar(g), and ...

Summary of 5.4

... amino compound and name one more example of each. 5.4.2b Reactions of amines describe and carry out, where appropriate (using butylamine and phenylamine), reactions to investigate the typical behaviour of primary amines. This will be limited to: i characteristic smell ii miscibility with water as a ...

Equilibrium Constant- Keq

... Equilibrium Constant- Keq 1. In an experiment, 0.500 mol/L of hydrogen bromide gas is decomposed into hydrogen and bromine gases. a) Write the equilibrium equation and equilibrium law for this reaction. b) The equilibrium concentrations in this system are [HBr(g)] =0.240 mol/L and [H2(g)]=0.130 mol/ ...

1) In the reaction H2O + CH3COOH H3O+ + CH3COO

... Zn2+/Cu2+, in the electrolyte will be required if one wants a 1.10 V zero current potential? Assume that the temperature is 298 K and that all activity coefficients are one. Hint: What is the Q in the Nernst equation for this reaction? ...

CHEMISTRY

... (3) Amphoteric compounds (4) Lewis acids 34. An alkane has a C/H ratio (by mass) of 5.1428. Its molecular formula is: ...

Practice Test #1

... The average velocity of the gas particles is directly proportional to the pressure. Gas particles are very small compared with the average distance between particlesGas particles collide with the walls of their container and in doing so give rise to pressure. Gasesare made up of tiny particles in co ...

Lab Stuff:

... Draw and label a picture of a water molecule. Explain it in terms of being polar. Show hydrogen bonds between different water molecules. ...

Introduction to enzymes

... When the substrate concentration becomes large enough to force the equilibrium to form completely all ES the second step in the reaction becomes rate limiting because no more ES can be made and the enzyme-substrate complex is at its maximum value. ...

Chapter 10

...  Phases are shown by abbreviations in parenthesis after each chemical H2O (s), H2O (l), H2O (g)  Standard phases are: – (s) – solid – (l) – liquid – (g) – gas – (aq) – aqueous – dissolved in water – (↑) – gas produced from aqueous phase ...

+ H 2 SO 4(aq) - Rothschild Science

... element you have NH3 (one nitrogen, three hydrogen)- DON’T mess with these!!  Coefficients – small whole number that appears ...

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Catalytic reforming

Catalytic reforming is a chemical process used to convert petroleum refinery naphthas distilled from crude oil (typically having low octane ratings) into high-octane liquid products called reformates, which are premium blending stocks for high-octane gasoline. The process converts low-octane linear hydrocarbons (paraffins) into branched alkanes (isoparaffins) and cyclic naphthenes, which are then partially dehydrogenated to produce high-octane aromatic hydrocarbons. The dehydrogenation also produces significant amounts of byproduct hydrogen gas, which is fed into other refinery processes such as hydrocracking. A side reaction is hydrogenolysis, which produces light hydrocarbons of lower value, such as methane, ethane, propane and butanes.In addition to a gasoline blending stock, reformate is the main source of aromatic bulk chemicals such as benzene, toluene, xylene and ethylbenzene which have diverse uses, most importantly as raw materials for conversion into plastics. However, the benzene content of reformate makes it carcinogenic, which has led to governmental regulations effectively requiring further processing to reduce its benzene content.This process is quite different from and not to be confused with the catalytic steam reforming process used industrially to produce products such as hydrogen, ammonia, and methanol from natural gas, naphtha or other petroleum-derived feedstocks. Nor is this process to be confused with various other catalytic reforming processes that use methanol or biomass-derived feedstocks to produce hydrogen for fuel cells or other uses.

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Catalytic reforming