Okay, if our lithium weight is going to be 6.941 g/moL Then that means we have to take 24.6g of Lithium and multiply it by 1 mol of Lithium over 6.941 g of Lithium. This would equal to be 3.544 mol of Lithium. Then we have to take that 3.544 and multiply it by 1 mol of hydrogen gas over 2 mol of lithium. Which would then equal into 1.772 mol of hydrogen gas. We can then figure out that 1.772 is our “n”. The “T” is our 301 Kelvin, the “P” is our 1.01 atm and the “R” is our 0.0820 which would be the L atm over mol k. And we can’t forget about our “V” which would be V equals nRT over P which equals 1.772 mol divided by 0.0820 L atm over mol kelvin multiplied by 301 kelvin over 1.01 atm which equals to our final answer of: 43.33 of H2 If a mol
of gas contains 22.414 liter, then you must divide this by the 8.9 liters of methan gas , which would give you an answer of 0.397 mol Then we would take that 0.397 mol and multiply it by 2 to get 0.794 mol of water vapor. Then you have to multiply it by 22.414 liter , which will give you 17.8 liter of the water vapor in the problem. If we take 23.5 g of potassium metal multiplied with 1 mol of k over 39.1 g k multiplied by 1 mol of fluorine gas over 2 mol k which would equal .301 mol of fluorine gas. Now we take the .301 mol of fluorine gas and multiply it with 293.15 k and .08206 over 1 atmosphere. Eventually our final answer would be volume equals 7.23 liters If we do 1.2 multiplied by 15.8 by 160.082 by 300, we get an answer of 12.33 g of methane gas. We get this because if we do 12 plus 4 its 16 methane gas, then we solve for R which gives us 0.082 and then for T which would be 27 plus 273, this giving us 300 kelvin.
Because it is a way of knowing the pressure that the blood is putting on the walls of arteries and veins.
In the process of this experiment, there were a total of two bilingual aphasics and eight monolingual aphasics who were tested through nine different EF test batteries to measure their level of EF which includes behavioural inhibition (response inhibition & interference control), working memory, planning/problem solving and reconstitution. The nine EF test batteries consists of the Stroop Color Word Test, Trail Making Test, Self-Ordered Pointing Test, Complex Figures, Wisconsin Card Sorting Test, Tower of London, Raven’s Progressive Matrices, Five Point Test and Design Fluency. The main focus of the experimentation was to test these 10 different individuals through conversation to investigate their EF profiles. To attain these results, each
For these calculations assume the temperature remains constant at 25 °C. There are four steps here. First the initial concentration of CoCl2(iPrOH)2 needs to be determined. Second, the equilibrium concentration of CoCl2(iPrOH)2 must be found. Third is the calculation of the equilibrium concentration of CoCl2(MeOH)4, then fourth, the ratio [CoCl2(MeOH)4] / [CoCl2(iPrOH)2] at equilibrium. Show all work. Remember to state the equations you are using defining all variables and constants. Then substitute in the values and show the results. Be certain all sig figs and units are correct. You are expected to follow this format in all subsequent lab work without being prompted.
Lab 1 demonstrates the capabilities of congestion control algorithms implemented by Transmission Control Protocol (TCP). It provides three scenarios to simulate these algorithms and will later compare the results.
For the most part, the probability matrix for $P^2$ is the same as the probability matrix for $B^2$; however, there is one important distinction to be made. Which is that while $B^2[5,0] = \frac{1}{3}$ in the quantum simulation $P^2[5,0] = 0$. On a mathematical basis, this is trivially written as
The project is going I am working is almost in the finish stage it is going into the production phase means getting to the live so that the users can able to use the application. After the developing the total code it will go to the testing phase where the testers will check the code is working properly without any errors actually the testers task is to check the code and submit to the developers if they found any errors or mistakes or else they will send the code to the production phase to deploy in the server to check the application.
The results have shown us that all four methods of extinguishing fires which we have used have been successful in putting the fires out but some were more efficient than others. Experiment A, with the vinegar, was the most successful substance. The fires in all the rounds of testing were quickly extinguished and there was barely any smoke. All the fires extinguished using Bottle A, were put out in under fifteen seconds with times such as fourteen seconds, thirteen seconds and eleven seconds. After the different rounds of testing, we also noticed that the product was easier to use and therefore put the fire out quicker. Experiment B, with the bicarbonate of soda, extinguished the fire but it took longer than experiment A and was not too efficient. The fires put out by Bottle B were put out between fifteen and
The main purpose of the radio is to have communication and microwave is used for industries
My original idea was to make a mobile monitoring device that made inferences on a person’s physical behavior, and could give advice on how they could potential lead healthier and happier lives. At the start of my research I was interested in articles about mobile devices such as BeWell[1], which is a smartphone application to monitor and promote wellbeing. It kept track of people’s everyday social, physical, and mental behaviors and provided useful feedback to improve their lives.
A dictionary attack is a technique used to break the computer security of a password-protected machine or server by systematically entering each word in dictionary as a password. A brute force attack is a trial-and-error method used to obtain secret information such passwords.
Considering a duty cycle equal to 0.8, a static gain equal to q = 10 is obtained for n = 1, q = 15 for n = 2 and q = 20
Determining the Relative Atomic Mass of Lithium An experiment has been carried out to determine the relative atomic mass of Lithium by using two different types of methods The first method that was carried out was to determine the volume of Hydrogen produced. In this experiment a fixed amount of Lithium was used, in my case it was 0.11g. At the end of this experiment, the volume of Hydrogen gas I collected was 185cm³. Then using the solution of lithium hydroxide made from experiment one, I used it in the titrating experiment, to find out the total volume of Hydrochloric acid used to titrate the lithium hydroxide. RESULTS TABLE Experiment Initial Volume ( cm³) Final Volume ( cm³) Total volume Of HCl used ( cm³) Rough 0.2 30.3 30.1 1 6.3 35.8 29.5 2 2.7 32.0 29.3 Average 29.6 CONCLUSION Method 1 [IMAGE]2Li (s) + 2H20(l) LiOH(aq) + H2(g) Number of moles of Hydrogen. Volume of hydrogen gas was 185 cm³. Weight of Lithium was 0.11g. N = __V__ _185_ = 0.0077 MOLES 24000 24000 Number of moles of Lithium.
-2152.7 x (56.1 / 1.37) = -88150.7 J.mol. 1. H = -88.15 kJ.mol. Hess' law states that: 1"The total enthalpy change for a chemical reaction is independent of the route by which the reaction takes place, provided initial and final conditions are the same.
General Protocol :Now repeat steps 17-28 for temperatures: 0°C, 10°C, 20°C, 30°C, 40°C, 50°C, and 60°C, testing three times each. Always put the catalase into the ice chest when not in use. Repeat with new hydrogen peroxide every time and make sure the temperature of the hydrogen peroxide is the temperature you are testing. Clean out jars immediately after testing and refill them with hydrogen peroxide, so multiple temperatures can be tested at once. There are 2 hours to test 20 runs (not including the 1st room temperature test) before the catalase starts denaturing (breaking down).
This report presents the implementation of a Clock element and the use of the seven segment display on the Altera DE2-115 board. This experimentation with the clock and display are valuable since they are a precursor to future labs to come. In order to make these items work it required the use or Verilog code, which was given for parts 1, 2, and 3.