What is the Difference between Flammable and Combustible Liquids? Put simply‚ flammable and combustible liquids are liquids that can burn. The real difference lies within their flash point range‚ or lowest temperature at which vapours of the material will ignite when supplied with an ignition source. Flammable and combustible liquids are utilised in most workplaces‚ from manufacturing to retail and service entities. To ensure the safety of property‚ people‚ and the environment‚ both flammable
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CHM130 Lab 3 Identification of Chemical Change Name: Paige Miller A. Data Table (24 points) Place your completed data table here: Reactants Predictions Before Combining Observations After Combining Starch + I2 I2 will turn Starch black I2 turned starch black Food coloring + NaOCl NaOCI will turn blue Coloring and NaOCI did not combine‚ NaOCI separated to the bottom Food coloring + CH3COOH CH3COOH will turn blue CH3COOH darkened the blue color Food coloring + NaOCl + CH3COOH Will
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J uly 5 ‚ 1960 & BUTYL STERS PEPTIDEYNTHESIS E IN S g roup occupies t he same position of the peptide chain in both mercaptalbumin and non-mercaptalbumin. 3359 Acknowledgments.-The authors are grateful to Mrs. J . O’Brien and Mr. 0. Griffith for their technical assistance. [ CONTRIBUTION T HE O RCAXIC FROM CHEMICAL RESEARCH SECTION‚ LEDERLE LABORATORIES v r s r o x ‚ MERICAN VASAMID U~ A C R Co.‚ PBARLIVER‚X. Y . ] &Butyl Esters of Amino Acids and Peptides and their
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• 1. INK OUT OF TEA BAGS Prepared by: Group 2 • 2. ORIGINALLY MADE BY: Jamie Quilala • 3. INTRODUCTION Tea is created by using the leaves of a plant known as Camellis sinensis . This plant is a native to China‚ South Asia and Southeast Asia but is now found • 4. Tea-drinking can be tracedback to the 10 century BC in thChina before it was spread toKorea and Japan.Basically‚ this drink is made bybrewing tea leaves to create anextract. Due to the chlorophyllsand other pigments in the leaves‚the
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Investigatory Project: (Ink Out of Tea Bags) Submitted To: Ms. Margie Tapel Submitted By: Jessa Mayrie H. Camuyag VI-1 INTRODUCTION Tea is created by using the leaves of a plant known as Camellis sinensis . This plant is a native to China‚ South Asia and Southeast Asia but is now found Tea-drinking can be traced back to the 10 century BC in China before it was spread to Korea and Japan. Basically‚ this drink is made by brewing tea leaves to create an extract. Due to the chlorophyllsand
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ABSTRACT The study aims to produce biodegradable plastic using cassava starch as its main component. Cassava starch was mixed with water‚ epoxydized soya bean oil (ESBO)‚ glycerol‚ and polyvinyl alcohol (PVA). The mixture was then compressed and tested. Three preparations were made from the mixture. The first preparation contained 50 grams starch‚ 50 grams water‚ 50 grams PVA‚ 2.5 grams ESBO‚ and 2.5 grams glycerol. The second preparation contained 65 grams starch‚ 65 grams water‚ 50 grams PVA‚ 2
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Acid-Base Calculations The Ion-Product Constant for Water‚ Kw Water undergoes ionization to a small extent: H20(l) H+(aq) + OH–(aq) The equilibrium constant for the reaction is the ion-product constant for water Kw: (1) This is a key equation in acid-base chemistry. Note that the product of [H+] and [OH–] is a constant at a given temperature (Eq(1) value is for 25oC). Thus as the hydrogen ion concentration of a solution increases‚ the hydroxide ion concentration decreases
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Preparation of the propolis extracts: the propolis sample of the Brazilian native bee species Melipona quadrifasciata was obtained in May‚ 2013 in the city of Blumenau‚ SC‚ Brazil (26 ° 54’21.3 "S 49 ° 04’49.1 "W). In order to obtain a hydroalcoholic crude extract (HCE)‚ 284.3 grams of propolis were pulverized and macerated in 70% ethanol (m m-1)‚ left in a dark chamber for 7 days at room temperature‚ filtered in vacuum and taken to complete drying in a rotary evaporator with reduced pressure. In
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bleach (NaOCl)‚ rather than the tradition chromium-based oxidizing reagents. The camphor was then purified using the process of sublimation. Procedure: Using a 50-mL Erlenmeyer flask‚ 1.316 g (8.5 mmol) isoborneol and 1.0 mL (17 mmol) glacial acetic acid were stirred vigorously with a magnetic stir plate. A volume of 1.7 mL NaOCl was added to solution‚ and it was then heated to 50° C. Drop-wise‚ 15 mL of NaOCL were added to the solution over the following 10 minutes. The solution was heated at
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Buffers usually consist of a weak acid and its conjugate base‚ in relatively equal and "large" quantities. A buffer system can be made by mixing a soluble compound that contains the conjugate base with a solution of the acid such as sodium acetate with acetic acid or ammonia with ammonium chloride. The buffer capacity refers to the maximum amount of either strong acid or strong base that can be added before a significant change in the pH will occur. This is simply a matter of stoichiometry. The maximum
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