Q. 1. During the electrolysis of molten lead bromide‚ which of the following takes place : A : Bromine is released at the cathode. B: Lead is deposited at the anode. C : Bromine ions gain electrons. D: Lead is deposited at the cathode. Ans : - D. Q. 2. Here is an electrode reaction : Cu → Cu2+ + 2e-. [i.e. Cu- 2e- →Cu2+]. At which electrode(anode or cathode) would such a reaction take place. Is this an example of oxidation or reduction. Ans : - At anode. Oxidation. Q. 3. A solution contains
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FORM 4G ELECTROLYSIS WORKSHEET TERM 3 2010-2011 1.Figure 1 below is a diagram of the apparatus used in the electrolysis of fused sodium bromide. Figure 1 a)Write the formulae for the ions present in the fused sodium bromide. b)Write an ionic equation to represent the reaction taking place at the positive and negative electrodes. c)When the heat source was removed‚ the crucible cooled and the lamp went out. Explain why the lamp went out when the crucible cooled. d)At the end of the experiment
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which combines and to form H2O. Then we can subtract the moles of H2O on the product side by the moles of H2O on the reactant side‚ and we get the balanced chemical equation for the decomposition of water. Data Table Initial indicator color of the electrolysis solution Dark Blue Chnages occuring at the positive (+) electrode Bright Yellow Changes
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Literature Survey Hydrogen Production: Hydrogen‚ which does not exist alone in nature‚ can be produced from a variety of feed stocks. 8 Literature Survey Hydrogen Production: 9 Literature Survey Hydrogen Production: Water Electrolysis: Electrolysis is an electrochemical process in which electrical energy is the driving force of chemical reactions. Substances are decomposed‚ by passing a current through them. . 10 Literature Survey Hydrogen Applications: Ammonia Production
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anOde (O2 in the electrolysis of water xp) Redox reactions: Reactions involving the transfer of electrons e.g. burning‚ rusting‚ photosynthesis‚ respiration and the browning of apples. happens in three types of reactions: 1. addition of oxygen 2. removal of hydrogen 3. increase in valency (how easily an atom can combine with other chemical species) Reduction → the gain of electrons → always happens at cathode (negative electrode) → think catHode (H2 produced in the electrolysis of water xp) An oxidising
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transference vessel and the multimeter in series; connect the power supply with the connection cables. Wait for 60 to 90 minutes for the electrolysis at approximately 50 mA held constant. While waiting for the electrolysis to finish‚ we check the initial concentration of the Nitric acid by titrating it with 0.1M NaOH using methyl red as the indicator. After the electrolysis‚ we take 5ml samples on the left and right side of the double U-tube (the anode and cathode regions of the transference vessel) and
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Grades K-5 Pencil Electrolysis Introduction: The process by which we separate the elements hydrogen and oxygen from water is called electrolysis. The word "lysis" means to dissolve or break apart‚ so the word "electrolysis" literally means to break something apart (in this case water) using electricity. It is difficult to break up water into it’s elements lots of energy is needed to do that. Through a chemical means though‚ we can separate the compound of water into the elements that combine to
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Purpose The purpose of this experiment is to observe a redox reaction and understand what it means. We will observe the new bonds formed and the importance of the electron in the formation of these new bonds. Materials Boileezers (boiling chips) Desiccant 0.17M acetic acid (acidified water) Solution of Sodium thiosulfate Granular zinc Iodine crystals Zinc ion and iodine-iodide-triiodide ion in water Solid zinc iodide Mineral oil Silver nitrate Magnesium turnings 3M Hydrochloric acid (HCl) solution
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25% sodium nitrate‚ and 10% sodium chloride. Sodium hydroxide is produced in the chloralkali process. The chloralkali process produces chlorine and hydrogen along with sodium hydroxide by putting an aqueous solution of sodium chloride through electrolysis. The NaOH must be kept from reacting with the chlorine. The cheapest and most effective in creating high quality sodium hydroxide is the membrane cell process. This uses a steel cathode with a Nafion membrane‚ a synthetic material made of polymers
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Decomposition Reaction-Electrolysis of Water Introduction: Demonstrate the decomposition of water in simple but very colorful and dramatic fashion on an overhead projector. Concepts: • Decomposition reaction • Oxidation–reduction • Electrolysis • pH Materials: Sodium Chloride/universal indicator solution‚ NaCl‚ 25 mL Overhead projector Pencil lead‚ 0.7 mm Battery lead with alligator clips Petri dish‚ disposable Battery‚ 9-Volt
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