Nailea Rosales Chemistry THE GAS LAWS LAB LAB 1 Pressure in kPa Volume in ml Dataset 1 30 90 Dataset 2 35 80 Dataset 3 40 75 Dataset 4 45 70 Dataset 5 50 60 Dataset 6 60 50 LAB 2 New temp. in Celsius New Volume in ml Dataset 1 5 47 Dataset 2 10 48 Dataset 3 15 49 Dataset 4 20 50 Dataset 5 25 51 Dataset 6 30 52 1. Describe the relationship that you observed between pressure and volume in this lab. Refer to your data and/or graph to help support your answer. I observed that the higher the pressure
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61. A sample of oxygen of mass 25.0 g is confi ned in a vessel at 0°C and 1000. torr. Then 6.00 g of hydrogen is pumped into the vessel at constant temperature. What will be the fi nal pressure in the vessel (assuming only mixing with no reaction)? 62. A gaseous mixture contains 3.23 g of chloroform‚ CHCl3‚ and 1.22 g of methane‚ CH4. Assuming that both compounds remain as gases‚ what pressure is exerted by the mixture inside a 50.0-mL metal container at 275°C? What pressure is contributed
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How would the following errors affect your calculated value of R? Explain your reasoning. If some air accidentally entered the eudiometer when it was transferred to the tall graduated cylinder‚ then the value of R would increase. This is because in my manipulated gas law equation‚ R=PVnT‚ volume is on top‚ in which if it’s value increases‚ then the value of R will also increase. And because volume is directly correlated by the how much gas is in the eudiometer‚ the more gas in the eudiometer‚ the
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Service Management Service Event Observation Evaluation HB-105 Student Name Chen Yaohua Name of Business/Organization: Starbucks Time/Date of Visit: 9/5/2014 Location: Eppley Center Type of Business/Organization: Retail Food Service Service Non-Profit Big Box Contract/Dormitory Lodging Government Grocery Quick Service Finance Public Svc Department Store Family Dining Communications Other
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This report contains ideas about my ideal Capstone project‚ and explanations of why I decided to choose the three following topics; Opening a Franchise‚ Buy Stocks‚ and Fashion Store. The topic picked fall into my own vision and goals for the future after finishing with the MgBA program. This report was written in order to help me clear my mind with ideas that I believe are the most effective to create a valuable Capstone project with my own interests. This report also helped me to identify possible
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Gambit and Fluent: Turbulent Flow and Heat Transfer in a Mixing Elbow 1.Abstract This exercise comprises of two sections A and B‚ where in the first section an analysis in creating initial vertices will be carried out along with the creation of edges and faces‚ and the setting of boundary types. The program used for this phase of the investigation will be Gambit. These will then be generated into a mesh using Fluent. Moreover‚ section B will focus on the sensitivity to the computational mesh
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Operation and Control of Auxiliary Systems: FUEL/GBC: Safe operation of GBC Check out while starting: • CW System: Ensure that the cooling water pump & at least 04/05 nos fan are in running condition. • Seal Gas Skid: Always Charge gas through gas filters GT-F8102 and fill the system. This prevents dirty gas going to seals. • Always maintain barrier seal pressure @ 0.3to 0.5 atg on OTB side and TB side before start of the Lube oil Pump and during normal operation.
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I’m pretty sure we have had this discussion before so i’ve got one of my old copypastas from a previous thread. >> Force travels through solid objects at roughly the speed of sound in that object‚ if you force a piece of an object to move at greater than the speed of sound through that medium it will simply tear whatever is holding it together without transmitting force to the surrounding structure. this gives a kind of hole punch effect if the projectile is moving faster than the speed of
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Experiment 4: Behavior of Gases Introduction: In this experiment‚ the problem trying to be solved is what gas laws are being used when the pressure‚ temperature‚ and volume are being measured. The three gas laws are Boyle’s Law‚ Charle’s Law‚ and Gay-Lussac’s Law. The Boyle’s Law is when volume and pressure are being compared. Pressure and volume are inversely proportional‚ because when pressure goes up‚ volume goes down. The Charle’s Law is when volume and temperature are compared. Volume and
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Midterm Notes These are the study notes‚ a mishmash of discussion postings from this and previous classes‚ together with my own thoughts. Note that I jump around a good bit as things pop into my head‚ and there is bound to be some repetition (but that’s a good thing‚ right?). I’ve tried to emphasize important points and to clear up a few misconceptions. I hope you find them helpful. To begin with‚ you should refresh your understanding of the elements of fiction (especially the kinds of characters)
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