DOCSLIB.ORG

Chemical Reaction Resource for Teachers - Video List

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Chemical Reaction Resource for Teachers - Video List Envisioning Chemistry Chemical Reaction Resource for Teachers - Video List - Solution 02. Tyndall Effect Electrolyte 03. Colloid Filtration 01. Ionization of Sodium Chloride (in Water) 04. Colloid Coagulation 02. Ionization of Sodium Chloride (Molten State) 05. Colloid Dialysis 03. Complete Ionization of Hydrogen Chloride 06. Colloid Electrophoresis 04. Partial Ionization of Hydrogen Fluoride 05. Nonelectrolyte Thermochemistry 06. Comparison of Strong Acids and Weak Acids Chemical Thermodynamics 07. Acidity Comparison of Weak Acids 01. Exothermic Reaction 02. Endothermic Reaction Ion Reaction 03. Determination of Heat of Neutralization 01. Reaction of Hydrochloric Acid with Calcium Carbonate Reaction Rate & Equilibrium 02. Reaction of Hydrochloric Acid with Sodium Carbonate Rate 03. Test for Hydrogen Ions in Aqueous Solution 01. Temperature Effect on Decomposition of Hydrogen 04. Test for Hydroxide Ions in Aqueous Solution Peroxide 05. Test for Ammonium Ions in Aqueous Solution 02. Concentration Effect on Reaction of Calcium Carbonate with Hydrochloric Acid Precipitation Reaction 03. Catalyst Effect on Decomposition of Hydrogen 01. Formation of Silver Chloride Precipitate Peroxide-I 02. Test for Sulfate Ions in Aqueous Solution 04. Surface Area Effect on Reaction Rate 03. Test for Chloride Ions in Aqueous Solution 05. Concentration Effect on Reaction of Potassium Permanganate with Oxalic Acid Hydrolysis Reaction 06. Temperature Effect on Reaction of Sodium Thiosulfate 01. Acidity and Alkalinity of Salt Solution with Manganese Dioxide 02. Conditions for Promoting or Inhibiting Hydrolysis of 07. Catalyst Effect on Decomposition of Hydrogen Iron(III) Chloride Peroxide-II 03. Double Hydrolysis Reaction 08. Catalyst Effect on Decomposition of Hydrogen Peroxide-III Colloid 09. Catalyst Effect on Decomposition of Hydrogen 01. Colloid Preparation (Iron(III) Hydroxide Colloid) Peroxide- IIV Chemical Reaction Resource for Teachers - Video List 1 Envisioning Chemistry 10. Catalyst Effect on Hydrolysis of Starch Potassium 01. Cutting Potassium Equilibrium 02. Reaction of Potassium with Water 01. Concentration Effect on Equilibrium Shift-I 03. Potassium Combustion 02. Concentration Effect on Equilibrium Shift-II 04. Potassium Combustion and Sodium Combustion 03. Temperature Effect on Equilibrium Shift 04. Dissolution Equilibrium Magnesium 05. Precipitation Conversion-I 01. Combustion of Magnesium in the Air 06. Precipitation Conversion-II 02. Combustion of Magnesium in Nitrogen 03. Combustion of Magnesium in Carbon Dioxide Oxidation-Reduction 04. Reaction of Magnesium with Water Electrochemistry 05. Reaction of Magnesium with Hydrochloric Acid 01. Fruit Batteries 02. Galvanic Cell Aluminum 03. Fuel Cell 01. Burning of Aluminum Foil 04. Zn/Cu Galvanic Cell 02. Reaction of Aluminum with Diluted Hydrochloric Acid 05. Electrolytic Reaction of Copper(II) Chloride Solution 03. Reaction of Aluminum with Diluted Hydrochloric Acid 06. Electrolytic Reaction of Sodium Chloride Solution (Macro Photography) 04. Reaction of Aluminum with Base 05. Reaction of Aluminum with Base (Macro Photography) 07. Iron OxidationInorganic Chemistry 06. Reaction of Aluminum Ions with Strong Base Sodium 07. Reaction of Sodium Aluminate with Strong Base 01. Physical Properties of Sodium 08. Reaction of Sodium Aluminate with Weak Base 02. Sodium Combustion 03. Reaction of Sodium with Water Iron 04. Reaction of Sodium Oxide with Water 01. Magnetic Properties of Iron 05. Reaction of Sodium Peroxide with Water 02. Reaction of Iron with Water Vapor 06. Reaction of Sodium Peroxide, Cotton and Water 03. Reaction of Iron with Diluted Hydrochloric Acid 07. Reaction of Sodium Peroxide, Cotton and Carbon 04. Reaction of Iron with Diluted Nitric Acid Dioxide 05. Reaction of Iron with Concentrated Nitric Acid 08. Alkalinity Comparison between Sodium Carbonate and 06. Reaction of Sodium Hydroxide with Iron(II) Sulfate Sodium Bicarbonate 07. Reaction of Sodium Hydroxide with Iron(III) Chloride 09. Reaction of Sodium Carbonate with Hydrochloric Acid 08. Test for Iron(III) Chloride in Aqueous Solution 10. Reaction of Sodium Bicarbonate with Hydrochloric Acid 09. Test for Iron(II) Sulfate in Aqueous Solution 11. Decomposition of Sodium Bicarbonate 10. Reaction of Iron Powder with Iron(III) Chloride 12. Reaction of Sodium Carbonate with Carbon Dioxide in Aqueous Solution Copper 13. Conversion between Sodium Carbonate and Sodium 01. Reaction of Copper with Oxygen Bicarbonate 02. Reaction of Copper(II) Sulfate Solution with Iron 03. Reaction of Copper(II) Sulfate with Sodium Hydroxide Chemical Reaction Resource for Teachers - Video List 2 Envisioning Chemistry 04. Reaction of Copper(II) Sulfate with Sodium Hydroxide Sulfur (Macro Photography) 01. Reaction of Sulfur with Copper 05. Conversion between Copper(II) Sulfate and Copper(II) 02. Combustion of Sulfur Sulfate Pentahydrate 03. Black Powder (Gun Powder) 04. Reaction of Sulfur Dioxide with Water Alloy 05. Bleaching Properties of Sulfur Dioxide-I 01. Distinguish Brass and Gold 06. Bleaching Properties of Sulfur Dioxide-II 02. Hardness of Alloy 07. Reduction Properties Sulfur Dioxide 03. Melting Point of Alloy 08. Diluting Concentrated Sulfuric Acid 09. Reaction of Iron with Concentrated Sulfuric Acid Silicon 10. Reaction Of Aluminum with Concentrated Sulfuric Acid 01. Reaction of Silicon Dioxide with Sodium Hydroxide 11. Reaction of Copper with Concentrated Sulfuric Acid 02. Reaction of Sodium Silicate with Hydrochloric Acid 12. Reaction of Sucrose with Concentrated Sulfuric Acid 03. Acidity of Silicic Acid 13. Reaction of Carbon With Concentrated Sulfuric Acid 04. Flame Retardant Effect of Sodium Silicate 14. Water Absorption of Concentrated Sulfuric Acid 15. Application of Gypsum Chlorine 01. Laboratory Preparation of Chlorine Nitrogen 02. Collecting Chlorine Gas 01. Observation of Liquid Nitrogen 03. Reaction of Chlorine Gas with Iron 02. Laboratory Preparation of Ammonia 04. Reaction of Chlorine Gas with Copper 03. Ammonia Fountain Experiment 05. Reaction of Chlorine Gas with Hydrogen 04. Reaction of Concentrated Hydrochloric Acid and 06. Bleaching Properties of Chlorine Water (Freshly Concentrated Ammonia Prepared) 05. Reaction of Copper with Diluted Nitric Acid 07. Bleaching Properties of Chlorine Water (Long Placed) 06. Collecting Nitric Oxide Gas 08. Bleaching Ability of Sodium Hypochlorite 07. Reaction of Nitric Oxide with Oxygen 08. Reaction of Copper with Concentrated Nitric Acid Halogen 09. Collecting Nitrogen Dioxide Gas 01. Reaction of Sodium Bromide with Chlorine Water 10. Reaction of Nitrogen Dioxide with Water 02. Reaction of Potassium Iodide with Chlorine Water 03. Reaction of Chlorine Water with Potassium Iodide Organic Chemistry Starch Test Paper Hydrocarbon 04. Reaction of Potassium Iodide with Bromine Water 01. Structure of Methane 05. Reaction of Bromine Water with Potassium Iodide 02. Preparation and Properties of Methane Starch Test Paper 03. Substitution Reaction of Methane 06. Reaction of Calcium Chloride with Silver Nitrate 04. Double Bond in Ethylene 07. Reaction of Sodium Bromide with Silver Nitrate 05. Preparation and Properties of Ethylene 08. Reaction of Potassium Bromide with Silver Nitrate 06. Ethylene Combustion 09. Extracting Iodine From Kelp 07. Preparation of Ethylene 08. Acetylene Combustion Chemical Reaction Resource for Teachers - Video List 3 Envisioning Chemistry 09. Structure of Benzene 03. Hydrolysis of Sucrose 10. Benzene Combustion 04. Color Reaction of Starch with Iodine 11. Properties of Benzene 05. Hydrolysis of Starch 12. Substitution Reaction of Benzene with Bromine 06. Reaction of Protein with Concentrated Nitric Acid 13. Nitration of Benzene 07. Color Reaction of Protein 14. Substitution Reaction of Bromoethane 08. Salt Out Process of Protein Alcohol Laboratory 01. Scale Model of Ethanol Operation 02. Density of Ethanol 01. Filtration 03. Ethanol Combustion 02. Evaporation 04. Catalytic Oxidation of Ethanol 03. Distillation 05. Reaction of Ethanol with Sodium 04. Leakage Detecting of Separatory Funnel 06. Reaction of Ethanol with Potassium Permanganate 05. Extraction 06. Separating Two Immiscible Liquids Phenol 07. Recrystallization of Benzoic Acid 01. Solubility of Phenol 08. Leakage Detecting of Volumetric Flask 02. Oxidation of Phenol 09. Solution Preparation 03. Acidity of Phenol-I 04. Acidity of Phenol-II Gas 05. Substitution Reaction of Phenol 01. Apparatus Set for Solid-Solid Reaction with Heating 06. Color Reaction of Phenol 02. Apparatus Set for Solid-Liquid Reaction with Heating 03. Apparatus Set for Solid-Liquid Reaction without Heating Aldehyde 04. Gas Collection by Water Displacement 01. Silver Mirror Reaction (Aldehyde) 05. Gas Collection by Air Displacement 02. Reaction of Acetaldehyde with Copper Hydroxide 06. Tail Gas Treatment 03. Oxidation of Acetaldehyde-I 07. Anti-Suction Device 04. Oxidation of Acetaldehyde-II 05. Reduction Reaction of Acetaldehyde Carboxylic Acids and Esters 01. Acidity of Acetic Acid 02. Reaction of Acetic Acid with Sodium Carbonate 03. Esterification 04. Hydrolysis of Ethyl Acetate Biochemistry 01. Reaction of Glucose and Freshly Prepared Copper Hydroxide 02. Silver Mirror Reaction (Glucose) Chemical Reaction Resource for Teachers - Video List 4.
Load more

Recommended publications
  • Reac on of Oxides with Acids and Bases
    Reacon of oxides with acids and bases Reacon of oxides with acids and bases Lesson plan (Polish) Lesson plan (English) Reacon of oxides with acids and bases Source: domena publiczna. Link to the lesson Before you start you should know that salts are a group of chemical compounds of ionic structure, composed of cations + of metals (or a cation of ammonium with the following formula NH4 ) and anions of the acid radical; that the names of salts are made up of two parts: acid radical name and metal name; that some metal oxides, such as sodium oxide or calcium oxide, react with water and produce hydroxides as a result of this reaction; that some oxides of non‐metals react with water to form acids, e.g. sulfur dioxide; that the red cabbage stock turns red in solutions of acids, violet in neutral solutions, and green in base solutions; that the methyl orange is coloured red in acids. You will learn to describe, by means of equations, the obtainment of salts in reactions of certain metal oxides with acids as well as some non‐metal oxides with bases. Nagranie dostępne na portalu epodreczniki.pl Source: GroMar Sp. z o.o.. Nagranie dźwiękowe abstraktu Reacons of metal oxides with acids Task 1 Before conducng experiment, formulate research queson and hypothesis. Write down observaon and conclusions. Analysis of the experiment: Does calcium oxide react with hydrochloric acid? Research queson Hypothesis Experiment 1 Research problem Does calcium oxide react with hydrochloric acid? Hypothesis Select one of the presented hypotheses and then verify it. The calcium oxide reacts with the hydrochloric acid.
    [Show full text]
  • United States Patent Office Patented Jan
    3,071,480 United States Patent Office Patented Jan. 1, 1963 2 actually can be modified as to proportion within the range 3,071,480 of approximately 60% by weight (62.1 mol percent) to GLASS COMPOSTEON FOR BEADS Charles E. Searigiat and Ezra M. Alexander, Jackson, 68% by weight (69.9 mol percent) and to this we add Miss, assignors to Cataphote Corporation, Toledo, basically three ingredients; these three ingredients being Ohio, a corporation of Ohio sodium oxide in a preferred quantity of 14% by weight No Drawing. Filed Dec. 5, 1960, Ser. No. 73,552 (14 mol percent) but which may range in quantity from 4. Claims. (C. 106-52) approximately 12.7% by weight (12.7 mol percent) to 16% by weight (16 mol percent), calcium oxide in a pre This invention relates to an improved glass composition ferred quantity of 14% by weight (15.5 mol percent), and, more particularly, to a glass composition suitable O but which may range in quantity from 12.7% by weight for the manufacture of solid spherical glass beads. (14.0 mol percent) to 16% by weight (17.7 mol percent), In the manufacture of glass beads for use in reflective and barium oxide in a preferred quantity of 6.3% by road signs, reflective road and curve markings, and the weight (2.5 mol percent), but which may range in quan like, it is of paramount importance that the glass com tity from 5.9% by weight (2.3 mol percent) to 7.3% by position meet certain rigid requirements, both as to 5 weight (3.0 mol percent).
    [Show full text]
  • Uncertain Material Experiment Size in Industry
    '10.5045 JULY 9. 1966 NATURE 125 The problem of nucleation is considered by V. N. Fili­ and certainly no information, about the reliability of povich by discussing a very simple model of a mixture some of the experimental results, in a field in which of two particles. As he says, " ... success depends on the reproducibility is not to be taken for granted. Figs. extent to which the model reflects the real system. The 45, 56 and 81 provide typical examples of justifiable development of a detailed theory of crystallization of doubts concerning the data. The theoret.ical calculations complex glasses and melts directly depends on the state seem to be similarly fraught with difficulties, and it is no of the theory of liquid and glass structure, which is still surprise to find a note added in proof which, concerning far from perfection". the displacement energy Ta, says "It now appears that The editor of this volume, E. A. Porai-Koshits, has 60 e Vis a better value than 25 e V, and if this is accepted, made important contributions to the study of glasses by the number of displaced atoms given in this book should X-ray diffraction and his laboratory has for some years be reduced by the ratio 25: 60". now concentrated on the use of small-angle X-ray diffrac­ The author has achieved a very creditable performance tion, light scattering and electron microscopy to study the with his cast of eccentrics and has provided a valuable, development of immiscibility in simple glasses and the up-to-date story of his field.
    [Show full text]
  • Chemical Names and CAS Numbers Final
    Chemical Abstract Chemical Formula Chemical Name Service (CAS) Number C3H8O 1‐propanol C4H7BrO2 2‐bromobutyric acid 80‐58‐0 GeH3COOH 2‐germaacetic acid C4H10 2‐methylpropane 75‐28‐5 C3H8O 2‐propanol 67‐63‐0 C6H10O3 4‐acetylbutyric acid 448671 C4H7BrO2 4‐bromobutyric acid 2623‐87‐2 CH3CHO acetaldehyde CH3CONH2 acetamide C8H9NO2 acetaminophen 103‐90‐2 − C2H3O2 acetate ion − CH3COO acetate ion C2H4O2 acetic acid 64‐19‐7 CH3COOH acetic acid (CH3)2CO acetone CH3COCl acetyl chloride C2H2 acetylene 74‐86‐2 HCCH acetylene C9H8O4 acetylsalicylic acid 50‐78‐2 H2C(CH)CN acrylonitrile C3H7NO2 Ala C3H7NO2 alanine 56‐41‐7 NaAlSi3O3 albite AlSb aluminium antimonide 25152‐52‐7 AlAs aluminium arsenide 22831‐42‐1 AlBO2 aluminium borate 61279‐70‐7 AlBO aluminium boron oxide 12041‐48‐4 AlBr3 aluminium bromide 7727‐15‐3 AlBr3•6H2O aluminium bromide hexahydrate 2149397 AlCl4Cs aluminium caesium tetrachloride 17992‐03‐9 AlCl3 aluminium chloride (anhydrous) 7446‐70‐0 AlCl3•6H2O aluminium chloride hexahydrate 7784‐13‐6 AlClO aluminium chloride oxide 13596‐11‐7 AlB2 aluminium diboride 12041‐50‐8 AlF2 aluminium difluoride 13569‐23‐8 AlF2O aluminium difluoride oxide 38344‐66‐0 AlB12 aluminium dodecaboride 12041‐54‐2 Al2F6 aluminium fluoride 17949‐86‐9 AlF3 aluminium fluoride 7784‐18‐1 Al(CHO2)3 aluminium formate 7360‐53‐4 1 of 75 Chemical Abstract Chemical Formula Chemical Name Service (CAS) Number Al(OH)3 aluminium hydroxide 21645‐51‐2 Al2I6 aluminium iodide 18898‐35‐6 AlI3 aluminium iodide 7784‐23‐8 AlBr aluminium monobromide 22359‐97‐3 AlCl aluminium monochloride
    [Show full text]
  • Chemistry Study Materials for Class 10 (NCERT Based Revision of Chapter -03) Ganesh Kumar Date:- 24/11/2020
    Chemistry Study Materials for Class 10 (NCERT Based Revision of Chapter -03) Ganesh Kumar Date:- 24/11/2020 METALS AND NON-METALS REACTION OF METALS WITH WATER: Metals form respective metal hydroxide and hydrogen gas when react with water. Metal + Water → Metal hydroxide + Hydrogen Most of the metals do not react with water. However, alkali metals react vigorously with water. Examples: Reaction of sodium metal with water: Sodium metal forms sodium hydroxide and liberates hydrogen gas along with lot of heat when reacts with water. Na + H2O → NaOH + H2 Reaction of aluminium metal with water: Reaction of aluminium metal with cold water is too slow to come into notice. But when steam is passed over aluminium metal; aluminium oxide and hydrogen gas are produced. 2Al + 3H2O → Al2O3 + 2H2 Reaction of zinc metal with water: Zinc metal produces zinc oxide and hydrogen gas when steam is passed over it. Zinc does not react with cold water. Zn + H2O → ZnO + H2 Reaction of Iron with water: Reaction of iron with cold water is very slow and come into notice after a long time. Iron forms rust (iron oxide) when reacts with moisture present in atmosphere. Iron oxide and hydrogen gas are formed by passing of steam over iron metal. 3Fe + 4H2O → Fe3O4 + 4H2 Reaction of potassium metal with water: Potassium metal forms potassium hydroxide and liberates hydrogen gas along with lot of heat when reacts with water. K + H2O → KOH + H2 Reaction of calcium metal with water: Calcium forms calcium hydroxide along with hydrogen gas and heat when reacts with water. Ca + 2H2O → Ca(OH)2 + H2 Reaction of magnesium metal with water: Magnesium metal reacts with water slowly and forms magnesium hydroxide and hydrogen gas.
    [Show full text]
  • Thermal and Combined Thermal and Radiolytic Reactions Involving
    PNL-10490 Thermal and Combined Thermal and Radiolytic Reactions Involving Nitrous Oxide, Hydrogen, and Nitrogen in the Gas Phase; Comparison of Gas Generation Rates in Supernate and Solid Fractions of Tank 241-SY-101 Simulated Waste S. A. Bryan L R. Pederson March 1995 Prepared for the U.S. Department of Energy under Contract DE-AC06-76RL0 1830 Pacific Northwest Laboratory Richland, Washington 99352 DISTRIBUTION OF THIC DOCUMENT IS UNLIMITED IT DISCLAIMER Portions of this document may be illegible in electronic image products. Images are produced from the best available original document. Executive Summary This report summarizes progress made in evaluating mechanisms by which flammable gases are generated in Hanford double-shell tank wastes, based on the results of laboratory tests using simulated waste mixtures. Work described in this report was conducted at Pacific Northwest Laboratory (PNL)(a) for the Flammable Gas Safety Project, the purpose of which is to develop information needed to support Westinghouse Hanford Company (WHC) in their efforts to ensure the safe interim storage of wastes at the Hanford Site. This work is related to gas generation studies being performed at Georgia Institute of Technology (GIT), under subcontract to PNL, using simulated wastes, and to studies being performed at WHC using actual wastes. Described in this report are 1) the results of tests to evaluate the rates of thermal and combined thermal and radiolytic reactions involving flammable gases, and 2) the results of experiments intended to compare gas generation rates in a homogeneous liquid with those in a heterogeneous slurry. Flam• mable gases generated by the radiolysis of water and by the thermal and radiolytic decomposition of organic waste constituents may themselves participate in further reactions.
    [Show full text]
  • W. R. Grace & Co.-Conn. Sodium Aluminate Product Stewardship
    W. R. Grace & Co.-Conn. Sodium Aluminate Product Stewardship Summary I. Overview W. R. Grace & Co.-Conn manufactures a limited amount of aqueous sodium aluminate for commercial customers and does not directly supply to the public. Sodium aluminate is produced when aluminum metal reacts with an aqueous solution of sodium hydroxide, creating a strong alkaline or basic liquid. Sodium aluminate, primarily in the liquid form, is used in a variety of controlled industrial uses. II. Chemical Identity – Physical and Chemical Properties Chemical Identity: CAS# (EC inventory): 1302-42-7 CAS Name: Sodium aluminate EC Number: 215-100-1 EC Name: Sodium aluminate RTECS Number: BD1600000 Molecular Formula: NaAlO2 Molecular Weight: 81.9701 Synonyms: aluminum sodium oxide, sodium aluminum dioxide, aluminum sodium dioxide Physical and Chemical Properties: Sodium aluminate is an inorganic chemical that in pure form is a white, hygroscopic and water soluble powder. It may generate heat when mixed with water and reacts exothermically with acids. It is corrosive in both solid and liquid forms. It is non-combustible however, if heated to decomposition it may produce corrosive and or toxic fumes. Most sodium aluminate placed onto the market is the aqueous form with typical concentrations of 25-50%. 1 grace.com Talent | Technology | Trust™ III. Applications Sodium aluminate has broad range of uses. Major applications include use in water and wastewater treatment applications, in papermaking, and as a raw material intermediate in commercial industries. In municipal drinking water and waste water treatment systems it serves as a clarifying aid and assists in the removal of phosphates and fluorides in municipal and industrial wastewater plants.
    [Show full text]
  • Write the Following Chemical Equations and Balance Using Coefficients. 1
    Write the following chemical equations and balance using coefficients. 1. Liquid mercury reacts with liquid bromine to produce solid mercury (II) Bromide Hg (l) + Br2 (l) → HgBr2 (s) balanced 2. Solid calcium carbonate decomposes upon heating to produce solid calcium oxide and carbon dioxide gas. CaCO3 (s) → CaO (s) + CO2 (g) balanced 3. Solid calcium will react with liquid water to produce aqueous calcium hydroxide and hydrogen gas. Ca (s) + 2H2O (l) →Ca(OH)2 (aq) + H2 (g) 4. Butane gas (C4H10) will react with oxygen gas to produce carbon dioxide gas and water vapor. 2 C4H10 (g) + 13 O2 (g) → 8 CO2 (g) + 10 H2O (g) 5. Solid aluminum will react with oxygen gas to produce solid aluminum oxide. 4Al (s) + 3O2 (g) → 2Al2O3 (s) 6. Aluminum metal is oxidized by oxygen (from the air) to form aluminum oxide. 4 Al (s) + 3O2 → 2 Al2O3 7. Sodium oxide reacts with carbon dioxide to form sodium carbonate. Na2O + CO2 → Na2 CO3 8. Calcium metal reacts with water to form calcium hydroxide and hydrogen gas. Ca (s) + 2H2O → Ca (OH)2 + H2 (g) 9. Potassium nitrate decomposes to form potassium nitrite and oxygen. 2 KNO3 (s) → 2 KNO2 (s) + O2 (g) 10. Barium metal reacts with Iron (III) sulfate to produce barium sulfate and iron metal. 3 Ba (s) + Fe2(SO4)3 → 3 BaSO4 + 2 Fe (s) 11. Barium chloride reacts with sodium sulfate to produce barium sulfate and sodium chloride. BaCl2 (aq) + Na2SO4 (aq) → BaSO4 (s) + 2 NaCl (aq) 7 Types of Chemical Reactions Directions (a) Write and balance the given equation.
    [Show full text]
  • Sodium Aluminium Silicate
    0 out of 3 Residue Monograph prepared by the meeting of the Joint FAO/WHO Expert Committee on Food Additives (JECFA), 84th meeting 2017 Sodium Aluminium Silicate This monograph was also published in: Compendium of Food Additive Specifications. Joint FAO/WHO Expert Committee on Food Additives (JECFA), 84th meeting 2017. FAO JECFA Monographs 20 © FAO/WHO 2017 1 out of 3 SODIUM ALUMINIUM SILICATE Prepared at the 84th JECFA and published in FAO JECFA Monograph 20 (2017), superseding tentative specifications prepared at the 80th JECFA (2015) and published in FAO JECFA Monographs 17 (2015). An ADI 'not specified' for silicon dioxide and certain silicates was established at the 29th JECFA (1985). A PTWI of 2 mg/kg bw for total aluminium was established at the 74th JECFA (2011). The PTWI applies to all aluminium compounds in food, including food additives. SYNONYMS Sodium silicoaluminate; sodium aluminosilicate; aluminium sodium silicate; silicic acid, aluminium sodium salt; INS No. 554 DEFINITION Sodium aluminium silicate is a series of amorphous hydrated sodium aluminium silicates with varying proportions of Na2O, Al2O3 and SiO2. It is manufactured by reacting aluminium sulphate and sodium silicate followed by precipitation. Chemical names Aluminium sodium silicate C.A.S. number 1344-00-9 Chemical formula xSiO2 · yAl2O3 · zNa2O Assay Silicon dioxide (SiO2): Not less than 66% and not more than 88%. Aluminium oxide (Al2O3): Not less than 5% and not more than 15%. Sodium oxide (Na2O): Not less than 5% and not more than 8.5%. All values expressed on the dried basis. DESCRIPTION Odourless, fine, white amorphous powder, or as beads FUNCTIONAL USES Anticaking agent CHARACTERISTICS IDENTIFICATION © FAO/WHO 2017 2 out of 3 Solubility (Vol.
    [Show full text]
  • Decomposition of Baking Soda Mole Relationships and the Balanced Equation SCIENTIFIC
    Decomposition of Baking Soda Mole Relationships and the Balanced Equation SCIENTIFIC Concepts •Decomposition reactions • Balancing chemical equations • Stoichiometry Background Due to the widespread use of sodium bicarbonate (commonly called baking soda) in many food products, the thermal decomposition reaction has been studied extensively by food chemists. Baking soda is used to prepare cakes in order to ensure that cakes “rise” as they bake. As the temperature of the cake batter reaches approximately 50 °C, the baking soda decomposes and carbon dioxide is released. The use of baking soda is especially popular in pancakes and waffles since the high cooking temperatures of 350– 450 °F (175–230 °C) cause the carbon dioxide to be liberated before the dough has set. Thus, the batter rises before it sets, and we get a light and tasty finished product. There are three possible chemical reactions that could be occurring during the baking process. All three of these reactions shown below are theoretically possible, yet only one reaction actually occurs. Possible Decomposition Reactions sodium bicarbonate (s) → sodium hydroxide (s) + carbon dioxide (g) sodium bicarbonate (s) → sodium oxide (s) + carbon dioxide (g) + water (g) sodium bicarbonate (s) → sodium carbonate (s) + carbon dioxide (g) + water (g) Materials Baking soda, 2 g Ring stand Balance, 0.01-g precision Ring support Bunsen burner Spatula, micro Clay triangle Spoon Crucible Weighing dish Crucible tongs Safety Precautions Exercise caution when using the Bunsen burner and when handling objects that have been heated. Do not touch the crucible or any metal that may remain hot. Use heat-resistant gloves if necessary.
    [Show full text]
  • United States Patent Office 2,345,134 Sodum Aluminate Product and Proc
    4-23-265 OR 2 345 l34. SR Search ROOT Patented Mar. 28, 1944 2,345,134 UNITED STATES PATENT OFFICE 2,345,134 SODUM ALUMINATE PRODUCT AND PROC. ESS OF PRODUCING THE SAME Frederick K. Lindsay, La Grange, and Benjamin F. Willey, Chicago, Ill, assignors to National Aluminate Corporation, Chicago, Ill., a corpo ration of Delaware No Drawing. Application November 27, 1939, Serial No. 306,292 12 Claims. (CI. 23-52) The present invention relates to a new and im droxide while still retaining the free and easy proved composition of matter consisting sub solubility of the product, coupled with substan stantially of a very soluble form of sodium tially permanent stability of the resulting solu aluminate which is further characterized by the tion. fact that solutions prepared therefrom will re 5 Thus it has already been proposed to prepare main stable Over long periods of time. a solution of sodium aluminate in which the One of the principal objects of the present molar ratio of sodium oxide to alumina is invention is a particularly desirable dry form Na2O:Al2O3::1.25:1 and then to take a COmpar of sodium aluminate containing up to 5% of a atively strong Solution of this product in Water stabilizing ingredient so thoroughly dispersed O and treat it at 100° C. with sugar to the extent therethrough that it will pass into solution sub of about 1.5% of the weight of the solution, con stantially simultaneously with the sodium alumi tinuing the heating for a period of about 2 hours, nate when the composition of the present inven it being stated by the previous workers in this tion is dissolved in water, with the result that field that such treatment will stabilize the re the Solution thus obtained will not become cloudy 5 sulting Solution.
    [Show full text]
  • Nitrogen,Sodium Nitrite-Converted
    N2/28.01 MOP:- Itispreparedbyfractional distilation ofliquid air Properties :- a)Physical Properties: Colorless gas Odorless tasteless Dissolve in water Less dissolve in alcohol Innert in nature Non inflammable gas b) Chemical Properties :- i) It is directly combine with metals and form nitrides at high temperature. ii) Not support combustion. Uses: • Antioxidant • for replacement of air in container of Parenterals • Reagent in pharmaceutical preparation • Manufacturing of ammonia, nitric acid • Preservation of materials • Liquid nitrogen used as a coolant in freezing process Storage “ It should be stored in metal cylinder painted gray on neck and black on body, painted name “nitrogen” on cylinder.” Sodium nitrite Formula: NaNO2 Mol Wt : 69 g/mol Method of Preparation 1.The salt is prepared by treating sodium hydroxide with mixtures of nitrogen dioxide and nitric oxide: NaOH + NO2 + NO → 2 NaNO2 + H2O The conversion is sensitive to the presence of oxygen, which can lead to varying amounts of sodiumnitrate. 2. Sodium nitrite can be prepare from sodium carbonate. Na2CO3 + NO + NO2→2 NaNO2 + CO2 PHYSICAL PROPERTIES It is a white to slightly yellowish crystalline powder Odor: specific odor Density: 2.168g/cm3 Solubility: freely soluble in water and soluble in alcohol. Melting Point: 271 °C PH: Between 7 and 9. Chemical Properties 1.In the laboratory, sodium nitrite can be used to destroy excess sodium azide. + + 2 NaN3 + 2 NaNO2 + 2 H → 3 N2 + 2 NO + 2 Na + 2 H2O 2. Above 330 °C sodium nitrite decomposes (in air) to sodium oxide, nitric oxide and nitrogen dioxide. 2 NaNO2 → Na2O + NO +NO2 3. Sodium nitrite can also be used in the production of nitrous acid via sulfuric acid.
    [Show full text]