Title of Experiment: An Activity Series Lab MSDS: Copper‚ Cu(s) Stability- Stable. Incompatible with strong acids‚ active halogen compounds‚ chlorine‚ fluorine‚ iodine‚ bromine‚ ammonia. May react explosively with strong oxidizing agents. Toxicology-Dust may cause respiratory irritation. Personal Protection- Suitable ventilation if handling powder. Zinc‚ Zn(s) Stability-Stable. Incompatible with amines‚ cadmium‚ sulfur‚ chlorinated solvents‚ strong acids‚ strong bases. Air and moisture
Premium Chlorine Bromine Oxidizing agent
Quantitative Analysis: % Copper in an Ore May 3‚ 2006 Abstract: In this experiment we were given an unknown sample of ore. Using the spectrophotometric analysis and the electrogravimetric analysis‚ we found the unknown percentage of copper in the unknown sample of ore was to be 17.6% by mass. Introduction: Chemical analysis takes place under two different scenarios. In one case‚ you need to find out the chemical identity of some material. The first kind of analysis‚ in which the chemical
Premium Chemistry Chemical element Chemical reaction
for the sins of the entire nation. It was a day reminding the Jews of their inherent sinfulness. It was a time to acknowledge their sinful condition before God and to manifest sorrow and repentance. Therefore they were required to fast. And it was no mere formalism. Why‚ though‚ did the Jews have to fast repeatedly‚ every year‚ whereas the Christian congregation is not commanded to fast at all? The apostle Paul helps us to understand this by his comments on the
Premium Fasting Jesus Christianity
Redox Titration Analysis of a Commercial Bleach A. Purpose ! ! ! To review oxidation-reduction reactions and their stoichiometry. To learn the concept and technique of redox titration. To determine the percent (m/v) of an active ingredient‚ sodium hypochlorite (NaOCl)‚ in a commercial bleaching agent. B. Theoretical Background Whereas acid-base reactions involve the transfer of a proton‚ oxidation-reduction or redox reactions involve the transfer of electrons from one substance to
Free Oxidizing agent Sodium Iodine
JOURNAL OF INFORMATION‚ KNOWLEDGE AND RESEARCH IN ELECTRICAL ENGINEERING DEVELOPMENT OF ACTIVE SUSPENSION SYSTEM FOR CAR USING FUZZY LOGIC CONTROLLER‚ PID & GENETICALLY OPTIMIZE PID CONTROLLER 1 AMIT B PANCHAL‚ 2DR. JAGRUT J GADIT‚ 3NIKUNJ G MISTRY ‚4NIRAV M VAGHELA 1‚4 2 Assi. Professor in Elect. Engg. Dept‚ Parul Inst. of Engg. & Tech.‚ Limada‚ Vadodara Assoc. Professor in Elect. Engg. Department‚ Faculty of Engg & techo-MSU Vadodara. 3 Lacturer in Electrical Engg. Department
Premium Control theory PID controller
sites of interaction. The structure of hD3 and hD2L receptors was differentiated by means of MD simulations and D3 selective ligands were discriminated‚ in terms of binding energy‚ by docking calculation. Robust correlation of computed and experimental Ki was obtained for hD3 and hD2L receptor ligands. In conclusion‚ the present computational approach seems suitable to build and refine structure models of homologous dopamine receptors that may be of value for structure-based drug discovery of selective
Premium
Appendix - I INDIAN CERTIFICATE OF SECONDARY EDUCATION EXAMINATION‚ MARCH 2013 LIST OF PRESCRIBED TEXTBOOKS 1. ENGLISH (01): PAPER 1. (Language) No specific book is being recommended for background reading. PAPER 2. (Literature in English) DRAMA : As You Like It : Shakespeare (edited by Roma Gill‚ Oxford University Press) OR Loyalties : John Galsworthy (edited by G.R. Hunter) PROSE: At least one of the following: (i) A Treasure Trove of Short Stories: Compiled and Edited by S. Chakravarthi (Frank
Premium
does not see and to believe that he has to submit himself to the God. God has created everything in this world. Buley Shah describing the purification of the heart: Sir te topi niyat khoti‚ ki lera sir topi dhar ke Tasbi phiri te dil na phiriya‚ ki lera tasbi hath barh ke Chiley kitey per Rab na miliya‚ ki lena chiliya war ke Buley Shah jhag bina doodh nai jamdey‚ bhavey laal hovey karh karh ke. Living and non-living both. But why is that he only command Tazkiya from humans not to angels or animals
Premium Writing Essay Education
Green Oxidation of Borneol to Camphor Abstract: This lab converted borneol to camphor using a green oxidation. Sodium hypochlorite was used instead of the less “green” Jones reagent. Borneol was mixed with glacial acetic acid and oxidized with sodium hypochlorite to make crude camphor. The crude camphor was purified by sublimation. The final product was characterized by obtaining a melting point and inferred spectroscopy. The experiment was carried out to see if bleach could oxidize borneol
Premium
when we use different initial concentrations. We do use a catalyst in this reaction to speed up the process and lower the activation energy needed to run the reaction. The catalyst is the Iodide ion that will be used in the form of potassium iodide (KI). Results at the end of the trails will be used to compose a rate of law for the reactions. This law will show the “dependence of the rate on the concentration of both H202 and I-. The rate of reaction equation is as follows: Rate of reaction = k [H202]M
Premium Chemical reaction Oxygen Chemistry