Balanced Chemical Equation

... replacement reaction equation: • Zinc(s) + hydrochloric acid(aq)  zinc chloride(s) + hydrogen(g). Zn(s) + 2HCl(aq)  ZnCl2(s) + H2(g) Note: Zinc replaces the hydrogen ion in the reaction ...

I, I, I, 4- Measurement Unit Conversions- Kilo

1 - UCSB C.L.A.S.

... 2. How many joules are required to raise the temperature of 225 g of copper from 25.0 to 35.0 ºC? (c = 0.20 J/ºC g) 3. If a 50.0 g sample of copper is heated to 85.0 ºC and placed in 100 mL water initially at 25.0 ºC, what will be the final temperature of the solution assuming no heat is lost to the ...

Stoichiometry - Cloudfront.net

... The substance formed 279.3 mg of CO2 and 66.46 mg H2O on combustion. The compound contains 4.680% N by mass. Is the white solid cocaine? 8. An unknown compound (molar mass = 176 g/mol) contains 68.2 mass % C, 6.86 mass % H, 15.9 mass % N, and 9.08 mass % O. What is the molecular formula? 9. Calcium ...

Unit 12 Worksheet Answers

... a. decreases b. increases c. remains the same 41. Element X is in Group 2 and element Y is in Group 17. What happens when a compound is formed between these two atoms? b. X loses electrons to Y to form a covalent bond. a. X loses electrons to Y to form an ionic bond. c. X gains electrons from Y to f ...

Entropy and reaction spontaneity Gibbs free energy

... The standard free energy of formation, ∆G0f , of a compound is the standard reaction free energy per mole for its synthesis from elements in their most stable forms. Standard free energies of elements in their most stable forms are equal to zero at 298K. Physical Chemistry EPM/04 ...

Oxidation and Reduction

... starting and ending oxidation numbers with a line. An example is shown here: ...

word doc (perfect formatting)

... Questions 5-8 refer to the following descriptions of bonding in different types of solids. a) Lattice of positive and negative ions held together by electrostatic forces b) Closely packed lattice with delocalized electrons throughout giving ability to conduct electricity and permitting ductility c) ...

2012 Chem 13 News Exam

... 32 Which statement about catalysts is incorrect? 28 A cylinder of unknown volume contains helium gas, He(g), at 3.50 atm and 315 K. The helium gas is then transferred to a 7.0 L gas cylinder containing Ne(g), at 2.50 atm and 315 K. If the final total pressure at 315 K is 5.75 atm, then what is the v ...

Bioenergy basics miller

... • Separations: schemes for purifying low volatility organic/renewable products (evaporation, reactive distillation, chromatography, other novel separations) • Thermodynamics: Many biobased reactions are reversible, involve nonideal solutions, physical properties estimation required ...

Balancing Chemical Equations

... 2. Assuming a s’more requires two graham crackers, one marshmallow, and one piece of chocolate, how many s’mores could you make with the ingredients shown? _____________ Gizmo Warm-up In a chemical reaction, reactants interact to form products. This process is summarized by a chemical equation. In t ...

Limiting Reactant WS with Answers

Ch 19 test_take-home

... C) the forward process is spontaneous but the reverse process is not D) the process is not spontaneous in either direction E) both forward and reverse processes have stopped 13) A reversible process is one that __________. A) can be reversed with no net change in either system or surroundings B) hap ...

Fe(H2O)63+ + H2O → ← H3O+ + Fe(H2O)5(OH)2+

... The change of solubility with temperature is the same for all substances. The solubility of a liquid in a liquid is independent of temperature. The solubility of most solids in water increases with increasing temperature. The solubility of most solids in water decreases with increasing temperature. ...

Reaction Rate review questions

... State the collision theory for chemical reactions. The Collision Theory states: 1. Reacting particles must collide with each other. In order to react, reactant particles must collide with each other. 2. The reactant particles must collide hard enough to break old chemical bonds so that new chemical ...

Enthalpy and Internal Energy

... Heats of reaction (ΔH) can be calculated in one of three ways, all experimentally derived: •  Calorimetry (direct experiment) •  Hess’s Law of Heat Summation (using ΔH values of other reactions that were previously determined by experiment) ...

Chemical Reactions - Johnston County Schools

... compound. (Sometimes these are called combination or addition reactions.) reactant + reactant  1 product Basically: A + B  AB ...

10th Carbon and Its Compounds Solved Paper-3

... ANS [2-ii] We know that esters are sweet smelling substances which are used in perfumes. These are formed when a carboxylic acid reacts with an alcohol in presence of conc. H2SO4. Since new compound A (i.e., Ethanoic acid) reacts with ethanol (an alcohol) in presence of conc. H2SO4 to form a sweet s ...

Chemical Reactions - Northside Middle School

...  Count the number of atoms of each type appearing on both sides  Balance the elements one at a time by adding coefficients (the numbers in front) - save H and O until LAST!  Check to make sure it is balanced. ...

1. The compound which could act both as oxidising as well as

... A mixture of Na2C2O4 (A) and KHC2O4 . H2C2O4 (B) required equal volumes of 0.1 M KMnO4 and 0.1 M NaOH, separately. Molar ratio of A and B in this mixture is (a) 1 : 1 (b) 1 : 5.5 (c) 5.5 : 1 (d) 3.1 : 1 3 mole of a mixture of FeSO4 and Fe2(SO4)3 required 100 ml. of 2 M KMnO4 solution in acidic mediu ...

Types of Reactions and Solution Chemistry

... solution came together and made a solid, or a precipitate. The ionic equation will help us determine what is going on in solution. Since our two reactants are aqueous that means that they are dissolved in water. We can therefore write them as individual ions. Be careful of the charges, the number of ...

Empirical Formula

... • Count the number of atoms of each element in the reactants and in the products, and record the results in a table. • Identify elements that appear in only one reactant and in only one product, and balance the atoms of those elements first. Delay the balancing of atoms (often hydrogen and oxygen) t ...

Group IV Elements

... It is purified from coal and zinc ore concentrates ...

Energy of Reactions

... The reason why the entropy of this reaction decreased is that you are going from 4 moles of gas to 2 moles of gas. The amount of gas is reduced and lowers the entropy. δGrxn = -33.1kJ Since the Gibb’s free energy is negative, this is a spontaneous reaction. ...

MIDTERM REVIEW UNIT 1: Mass/Measurement

... 11. In a reaction between lead (II) nitrate and copper (II) bromide, do the following: a) write the formulas for the reactants and the products and balance the equation b) If 0.67 moles of copper (II) ...

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Lewis acid catalysis

In Lewis acid catalysis of organic reactions, a metal-based Lewis acid acts as an electron pair acceptor to increase the reactivity of a substrate. Common Lewis acid catalysts are based on main group metals such as aluminum, boron, silicon, and tin, as well as many early (titanium, zirconium) and late (iron, copper, zinc) d-block metals. The metal atom forms an adduct with a lone-pair bearing electronegative atom in the substrate, such as oxygen (both sp2 or sp3), nitrogen, sulfur, and halogens. The complexation has partial charge-transfer character and makes the lone-pair donor effectively more electronegative, activating the substrate toward nucleophilic attack, heterolytic bond cleavage, or cycloaddition with 1,3-dienes and 1,3-dipoles.Many classical reactions involving carbon–carbon or carbon–heteroatom bond formation can be catalyzed by Lewis acids. Examples include the Friedel-Crafts reaction, the aldol reaction, and various pericyclic processes that proceed slowly at room temperature, such as the Diels-Alder reaction and the ene reaction. In addition to accelerating the reactions, Lewis acid catalysts are able to impose regioselectivity and stereoselectivity in many cases.Early developments in Lewis acid reagents focused on easily available compounds such as TiCl4, BF3, SnCl4, and AlCl3. The relative strengths of these (and other) Lewis acids may be estimated from NMR spectroscopy by the Childs method or the Gutmann-Beckett method. Over the years, versatile catalysts bearing ligands designed for specific applications have facilitated improvement in both reactivity and selectivity of Lewis acid-catalyzed reactions. More recently, Lewis acid catalysts with chiral ligands have become an important class of tools for asymmetric catalysis.Challenges in the development of Lewis acid catalysis include inefficient catalyst turnover (caused by catalyst affinity for the product) and the frequent requirement of two-point binding for stereoselectivity, which often necessitates the use of auxiliary groups.

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Lewis acid catalysis