4.12.4 Calculation of the Working Dimensions of the Formed Parts For the calculation of the working size of the molded parts‚ there are the average shrinkage method and the limit size method. The average shrinkage method is used to calculate the working dimensions of the stress cone cavity. According to literature [55]‚(3-14): the cavity size of the formula: (1) The radial size of core and reentrant mold 1) Size calculation L_M=[(1+S_max ) L_s-∆_1 ]_0^(+δ_z1 ) =[(1+2.2%)×42-0.36]_0^(+0.12) = 42
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The percent change in mass between the total mass of 10 un-popped kernels and total mass of 10 popped kernels was approximately 18.83 %‚ which is also the same for the percent change of mass between the 1 un-popped kernel and 1 popped kernel. The reason why there’s a percent change in mass is due to the experiment being done in an open system‚ which is a systematic error. The open system is a systematic error because during the period of time to measure the mass of the popped kernels‚ the escaped
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HG-1 THE HEAT OF FUSION OF ICE Introduction When heat flows into a system there are a number of things that can happen. One result could be a temperature rise. Or‚ the system might even catch fire. A third possibility is a change of state. As you know‚ matter exists in three states (or maybe four‚ the fourth being a plasma)‚ solid‚ liquid and gaseous. At different temperatures‚ the same substance may be in different states. Each state is characterized by the way the interatomic forces act. In solids
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Senior Science Half-Yearly Revision 1. Surface tension - A property of the surface of a liquid. It is what causes the surface portion of liquid to be attracted to another surface‚ such as that of another portion of liquid. Surface tension is caused by cohesion (the attraction of molecules to like molecules). Since the molecules on the surface of the liquid are not surrounded by like molecules on all sides‚ they are more attracted to their neighbours on the surface. Mercury has a high surface
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Laboratory Techniques & Measurements Observations from Procedures Data Table 1 – Length measurements Object|Length (cm)|Length (mm)| CD|12|120| Key|5|50| Spoon|17|170| Fork|19|190| Metric Ruler|30|300| Data Table 2 – Temperature measurements Hot water from tap (44ºC )|Boiling water (70ºC)|Boiling water – 5 minutes (100ºC)| ]111.2 F|158 F|212 F| Cold water from tap (24ºC)|Ice water (5ºC)|Ice water – 5 minutes (0ºC)| 75.2 F|41 F|32 F| Data Table 3 – Mass measurements
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Thermite Background: Thermite is a powder made from aluminum powder and a metal oxide [usually iron oxide (Fe2O3‚ known as rust)]. The thermite reaction is a redox reaction‚ where Aluminum reduces the oxide of another metal. For example‚ when using iron oxide (as I did) the equation would be Fe2O3(s) + 2 Al(s) -> Al2O3(s) + 2 Fe(l). Black or blue iron oxide (Fe3O4) could also be used. Other examples of possible oxides are manganese thermite (MnO2)‚ Cr2O3‚ and copper thermite (CuO). Aluminum can
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MAE219 Review Prof. Y. Ngabonziza 1. The water in a tank is pressurized by air‚ and the pressure is measured by a multifluid manometer as shown in Figure 1. Determine the gage pressure of air in the tank if h1=0.2m‚ h2=0.3m‚ and h3=0.46m. Take the densities of mercury‚ water‚ and oil are given to be 13‚600‚ 1000‚ and 850 kg/m3‚ respectively. 2. A piston cylinder device initially contains 0.07m3 of nitrogen gas at 130KPa and 120oC. The nitrogen is now expanded
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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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Lab 3: Hydrogen Spectrum Abstract When white light is viewed through a diffraction grating‚ we can see each component that makes up the light. However‚ when in an excited state‚ a gaseous element produces bright light of specific wavelengths rather than a continuous spectrum of colors. This phenomenon ultimately lead to the Neils Bohr model of the atom in 1913. Introduction In the middle of the 19th century‚ Robert Bunsen and Gustav Kichoff observed that gases emit spectral lines specific
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