Observing a Limiting Reactant An experiment was carried out to predict the limiting reactant in a chemical reaction between Magnesium and Hydrochloric acid‚ using the mole concept. Limiting Reactant: It is the reactant that will deplete or will be used up first during a chemical reaction. Limiting reactant also determine how long the reaction will last for. Balanced Equation: Mg + 2HCl = MgCl2 + H2 The balanced equation is needed to determine the mole ratio between the two reactants. From
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control water group reflects my hypothesis‚ with near to no growth due to the mineral deficiencies within the solute. The tube containing Nitrogen has a very small and weak stem‚ and the tube containing Magnesium successfully grew large green leaves‚ supporting scientific evidence of plants using magnesium for chlorophyll production [later used in photosynthesis]. The tube containing Calcium had stunted and minimal stem and root growth‚ and barely grew at all over the week period. The orange plant
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iodide solutions Double replacement Yellow colored powder collected at the bottom Double replacement Magnesium metal and hydrochloric acid solution Single replacement The solution began to fizz. Proves to be flammable. single replacement Electrolysis of water decomposition The water bubbles In the tubes filled with H2 and O2 decomposition Burning magnesium combustion As the magnesium comes in contact with the CO2 it creates a bright burning light synthesis Conclusion: Write a balanced
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causes nausea and vomiting Uses: • gastric antacid for hyperchlorhydria • for intestinal toxemia CALCIUM-CONTAINING ANTACIDS • dependent upon their basic properties • raise stomach pH to 7 • constipating • found in combinations with magnesium antacids 1. CALCIUM CARBONATE • precipitated chalk • fast action • found in combinations with Mg antacids • in Lozenges and Oral suspension 2. TRIBASIC CALCIUM PHOSPHATE • Precipitated Calcium Phosphate‚ Tertiary Calcium
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about how each is commonly found in NATURE (if you were walking down the street and picked some off the ground‚ in what form would it be? Would you have to be walking in a certain part of the world?) 1. Beryllium Be In Egypt in a rocky area 2. Magnesium Mg- Oceans and streams 3. Calcium Ca In limestone and in oceans/streams 4. Strontium Sr
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2-diphenyl-1‚2-propanediol‚ through an addition reaction pathway. Introduction: Grignard reagents are alkyl or aryl-magnesium halides that act as the nucleophile in Grignard reactions‚ where ketones are reacted with the reagent‚ then treated with acid to produce an alcohol. In the case of this experiment‚ methylmagnesium iodide was created from methyl iodide and magnesium metal. It acted as the Grignard Reagent in Part B upon which it was reacted with benzoin to create 1‚2-diphenyl-1‚2-propanediol
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Procedure First thing to do is to gather the equipment and materials needed for this lab. These include a magnesium ribbon‚ a crucible and cover‚ ring stand‚ iron ring‚ crucible tongs‚ burner‚ balance‚ and safety goggles. Once all the items are ready and available‚ then the lab can begin. Measure the mass of the crucible by itself and record the data. Then take the piece of magnesium ribbon and break it into small bits. Place the bits into the crucible and measure them together. Then place the
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spontaneous (∆G < 0). The second reaction involved magnesium ribbon. Two slabs of dry ice were set-up‚ with holes carved on both of them. When the magnesium ribbon was lighted on the first slab of ice‚ it produced a bright‚ white light‚ and was quickly covered with the second slab of dry ice. The reaction produced very bright light (which may cause blindness) and some sparks (exothermic reaction took place)‚ which signified that the reaction between magnesium solid and carbon dioxide gas had been proceeding
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Magnesium General Information of The Element Magnesium is the twelfth element on the periodic table. The atomic number is 12‚ and its atomic mass is 24.305. Magnesium’s boiling point is at 1090C or 1994F‚ and its melting point is at 650C or 1202F.Its state of matter is solid. It is located in the second group called the alkaline earth metals. Magnesium is found in seawater‚ salty layers and in many rock minerals. IT could be used as metal. It’s the third most abundant structural metal
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Hypothesis The hypothesis of this experiment is magnesium oxide can be synthesized by combining (burning) the magnesium with oxygen. The chemical and physical properties of each element (magnesium‚ oxygen‚ and magnesium oxide) might be different‚ from the state‚ color‚ electrical conductivity‚ and pH. Aim This experiment was performed to synthesize magnesium oxide by direct combination of magnesium and oxygen and to compare the properties of the elements (magnesium and oxygen) in their elemental state with
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