Isotopes and Atomic Mass It’s Vegium I. Purpose The purpose of this lab is to determine the average weights of each isotope of the “element” vegium‚ determine the relative abundance of isotopes of vegium‚ and calculate from experimental data the atomic mass of vegium. II. Apparatus Sample of vegium‚ balance‚ weighing cups III. Data Tables | |Beanium |Peaium |Cornium |Total
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Worksheet: Mixed Problems—Mole/Mole and Mole/Mass Name______________ Answer each of the following questions using the equation provided. BE SURE TO BALANCE EACH EQUATION BEFORE SOLVING ANY PROBLEMS. SHOW ALL WORK. 1. ___Cu + ___O2 ___CuO a. If 101 grams of copper is used‚ how many moles of copper (II) oxide will be formed? b. If 5.25 moles of copper are used‚ how many moles of oxygen must also be used? c. If 78.2 grams of oxygen react with copper‚ how many moles of copper (II) oxide will
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Common Signs of Mole Problems The mole is a burrowing animal that can cause many problems for homeowners. While they may look similar to a mouse‚ you will not have to worry about them invading your home. Instead‚ they will invade your outdoor space and cause many issues. The following are some of the more common signs of mole problems: Mole Hills If you notice that your lawn suddenly has mounds or heaps of dirt in the middle of it‚ you could have a mole problem. The moles will actually mound
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Mole Examples (Avogadro’s Revenge) 1. 2. 3. 4. 5. 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 23 Astronomers estimate that there is a mole (6.02 x 10 ) of stars in the universe. One mole of high school chemistry textbooks would cover the USA to a depth of about 320 km (200 miles). Water flows over Niagara Falls at about 650‚000 kL (172‚500‚000 gallons) per minute. At this rate it would take 134‚000 years for one mole of water 23 drops (6.02 x 10 drops) to flow over Niagara Falls. Avogadro’s number (6
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Cydney Kessler Date of Experiment June 13‚ 2015 Report Submitted: June 15‚ 2015 Title: Laboratory Techniques and Measurements Purpose: In this experiment I will determine the mass‚ density‚ volume‚ lengths and temperatures of different objects and liquids to help me better understand the importance of Chemistry and how Chemistry plays a big role in our everyday lives. Procedure: In the experiment‚ I use devices such as a ruler‚ beakers‚ flasks‚ a scale and cylinders
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surrounded by water molecules. * An electrolyte is an ion dissolved in water. Solution Concentration * Concentration is expressed as a ratio: The amount of solute is the numerator and the total amount of solution is the denominator. * The most commonly encountered units of concentration in the medical field are mass/volume‚ %mass/volume‚ moles/volume‚ and equivalents/volume. Colloids and Suspensions * Colloids contain particles that are much larger than typical solute particles
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TITLE Crime and Dye Lab Special Projects 1 Martin Enem LAB SECTION: BB2 INTRODUCTION Light is usually viewed as a result of the heating of a substance. The higher the temperature at which the substance is heated‚ the greater the vibrations that lead to certain light intensity given off by the molecule. It is this same theory that suggests why steel glows red hot when heated to high enough temperatures. The process of light emissions can also be induces through other means. 1 One
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a measure of change that happens in a single unit of time. When a reaction takes place the particles of the reactants collide. The more often the particles collide the more likely they are to react and so the faster the reaction is. The speed at which a reaction takes place can vary and depend on a number of factors: The surface area of any solid reactants The concentration of reactants (including pressure in the cases of gases) The temperature The presence of a catalyst In this particular
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both parts of the experiment on our own and so we relied on the results of others in class. In terms of error‚ it gives plenty of opportunity for inconsistencies in the data. The inconsistencies could exist due to equipment‚ or understanding of the lab
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The Chemical Engineering Journal‚ 48 (1992) 17-29 17 Development and verification of a simulation model for a nonisothermal water-gas shift reactor Riitta L. Keiski”‚ Tapio SaImib and Veikko J. Pohjola” ‘Department bDepatiment of Process Engineering‚ of Chemical Engineering‚ University of Ouh‚ SF-90570 Oulu (Finland) Abo Akademi‚ SF-20500 Turku (Finland.. (Received December 29‚ 1989; in final from July 5‚ 1991) Abstract A fixed-bed test reactor suitable for studying non-isothermal
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