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Charles' Law 1. L 94.0 LOO. mm the length of the original tube 2. Tube diameter...
1 and 2. A student carried out the procedure described in this experiment to verify Charles's Law. The follow data were obtained: Temperature of the boiling water = 99.0°C Room temperature = 28.0°C Volume of water drawn back into the flask = 50.0mL Total volume of the flask = 275.5mL Identify V, and T, Identify V2 and T2 Using the same equation you used on the Report Sheet, verify Charles's Law. Calculate any percent deviation. Equation 1. Charles's Law Vi...
2. A nuclear fuel rod with diameter of D=40 mm and length L=1m, has properties of k=1 W/mK, c=1600J/kg-K, and p=400 kg/m² (a)Heat is generated uniformly in the rod with q'"' = 2 x 106 W/m. The rod is first cooled in oil with constant temperature To= 400 K and average heat transfer coefficient h=50 W/m2K. Under steady state, determine the surface temperature of the rod Ts. (10 pts) (b)Now the heat generation in the rod is stopped, where q"'...
2. A nuclear fuel rod with diameter of D=40 mm and length L=1m, has properties of k=1 W/mK, c=1600J/kg-K, and p=400 kg/m² (a)Heat is generated uniformly in the rod with q'"' = 2 x 106 W/m. The rod is first cooled in oil with constant temperature To= 400 K and average heat transfer coefficient h=50 W/m2K. Under steady state, determine the surface temperature of the rod Ts. (10 pts) (b)Now the heat generation in the rod is stopped, where q"'...
010 Datasheet and calculations Record the change pressure that occurred during the reaction and the mewn m water bath in your data table ature of the Volume of Flask, ml. 260 mL Mass of metal (Mg) in 666 af 0.047 0.030 y A. Max Pressure in Nask, in kPa or at 111.73 104.30 B Atmospheric pressure, (starting pressure). or in kPa or at P 102.60 102.10 Change in pressure or hydrogen gas. in kPa or atm (A-B) 9.13 kPa |...
A nuclear fuel rod with diameter of D=40 mm and length L=1m, has properties of k=1 W/ mK, c=1600J/kg.K, and p=400 kg/mº. (a)Heat is generated uniformly in the rod with q'"' = 2 x 10 W/m. The rod is first cooled in oil with constant temperature Tu= 400 K and average heat transfer coefficient h=50 W/m2K. Under steady state, determine the surface temperature of the rod Ts. (10 pts) (b)Now the heat generation in the rod is stopped, where q'"'...
2. A nuclear fuel rod with diameter of D=40 mm and length L=1m, has properties of k=1 W/mK, c=1600J/kg.K, and p=400 kg/m3. (a)Heat is generated uniformly in the rod with q'"' = 2 x 106 W/m?. The rod is first cooled in oil with constant temperature To= 400 K and average heat transfer coefficient h=50 W/m².K. Under steady state, determine the surface temperature of the rod Ts. (10 pts) (b)Now the heat generation in the rod is stopped, where q'"...
2. A nuclear fuel rod with diameter of D=40 mm and length L=1m, has properties of k=1 W/mK, c=1600J/kg.K, and p=400 kg/m3. (a)Heat is generated uniformly in the rod with q'"' = 2 x 106 W/m?. The rod is first cooled in oil with constant temperature To= 400 K and average heat transfer coefficient h=50 W/m².K. Under steady state, determine the surface temperature of the rod Ts. (10 pts) (b)Now the heat generation in the rod is stopped, where q'"...
2. A nuclear fuel rod with diameter of D=40 mm and length L=1m, has properties of k=1 W/mK, c=1600J/kg.K, and p=400 kg/m3. (a)Heat is generated uniformly in the rod with q'"' = 2 x 106 W/m3. The rod is first cooled in oil with constant temperature To= 400 K and average heat transfer coefficient h=50 W/m2K. Under steady state, determine the surface temperature of the rod Ts. (10 pts) (b)Now the heat generation in the rod is stopped, where q'''...
An oil preheater consists of a single tube of 30-mm diameter and 7-m length, with its surface maintained at 200°C by swirling combustion gasses. The engine oil enters at 90°C and comes out at 144°C. Assume the flow is laminar and both hydraulically and thermally fully developed. Answer the following questions: (a) What flow rate must be supplied to maintain the oil outlet temperature of 144°C? (b) What is the corresponding heat transfer rate? (c) Discuss how you may refine...
check answers Chem 110 - Chapter 6 Assignment 1. Calculate the pressure of 1050 mmHg of argon in alm. lor o 10somntig 760mmtig = 798,000 attm 2. A 10.0L balloon contains helium gas at a pressure of 655 mmHg. Calculate the new pressure of helium, in mmHg and atm, when the balloon volume increases to 200 L assuming there is no changes in temperature V. - 10.0L V - 20.0L increases P. 655 mmHg P2? mootty Piv=PzV2 Pixe = P₂...