Perform a Kline-McClintock uncertainty analysis
on the pressure calculation in (a). Provide the
uncertainty of the calculated pressure in unit of Pa. Show all work
for full credit.
Show all steps. Thank you
Perform a Kline-McClintock uncertainty analysis on the pressure calculation in (a). Provide the uncertainty of the...
You must SHOW ALL OF YOUR WORK, including unit analysis, to receive full credit for each problem. It is often the case that the correct method of solution is more important than the numerical answer. 1. The speed of a certain proton is 045 Mm/s. If the uncertainty in its momentum is to be reduced to 0.0100%, what uncertainty in its location must be tolerated? 2. The work function for metallic cesium is 2.14 eV. Calculate the kinetic energy and...
Create the worksheet shown in Figure 1.35 and use it to
determine the pressure at the bottom of the columns of fluid
specified below. [Do not consider any imposed pressure (e.g., air
pressure) on the top of the column.]
a.A column of water 10 m high (SGwater
=1.0)
b. A column of seawater 11,000 m high. This is the
depth of the Marianas Trench, the deepest spot known in the earth’s
oceans (SGseawater = 1.03) (ignore the variation in water...
The absolute pressure at the bottom of a liquid store tank that is vented to the atmosphere is given by: Pabs,bottom = ρgh + Poutside Where: Pabs,bottom = the absolute pressure at the bottom of the storage tank (Pa)ρ = liquid density (kg/m3)g = acceleration due to gravity (m/s2)h = height of the liquid (m)Poutside = outside atmospheric pressure (Pa) Find Pabs,bottom in SI units if ρ = 1000 kg/m3, g = 32.2 ft/s2, h = 7 yd, and Poutside = 1 atm• Here are some tips to help you get started:o Remember your comment section and variable definitions o Use...
B3. (20%) (Show all your calculation steps.) Water vapor initially at 240 °C, 1.0 MPa expands in a piston-cylinder assembly isothermally and without internal irreversibilities to a final pressure of 0.1 MPa. Evaluate the (a)work done, in kl/kg, (b) the change of entropy,, in kl/kg-K and (c) the change of internal energy, in kl/kg. Assume the system can be treated as a Van der Waals model.. [Given: the specific volume of the water vapor can be determined from the superheated...
Please show all work. Provide equations used for full credit. Please use correct significant figures and correct units in answers. The reaction, 2NOBr(g) + 2NO(g) + Br2(8) has an equilibrium constant, K = 0.42 at 373 K. a. Calculate Agºrxn at 373 K. b. Using the value of AHºrxn = 45.38 k) and the AGºrxn calculated in part a, calculate the ASºrxn at 373 K. Consider the reaction: 2NO(g) + C12(8) + 2NOCI(g) Given the following table of thermodynamic data,...
Measurements and analysis of a circuit Lab!!
I need help finding Current 1, Current 2, Current 3. Please show
the work!!
and also the last two questions
mtasured fr R2-1.3 Ro 34 Data Sheet 2 RED401.3 B.Measurements and analysis of a circuit with fault #1 Calculated Values from postulated fault R3= 33.3 Measured Values R2 435 RBC 423,3 RBC= ohms ohms L 400 RBD = ohms RBD= ohms 33.3 ohms RDC = Rpc= ohms 3.09 3.09 volts use measured value...
PLEASE PROVIDE STEP-BY-STEP SOLUTION WITH
EXPLANATION:
ANSWERS
Question 1 (40 marks) An initial design calculation is to be undertaken for a large refrigeration plant that will service a frozen goods warehouse. The warehouse is to be kept at a temperature of -20.0°C and the total refrigeration heat load is 1.50 MW. The refrigeration system is to reject heat to the ambient air at 30.0°C and operate with a discharge pressure of 1.60 MPa and a suction pressure of 60.0 kPa...
In an article on measuring flows from pipes, the author calculated a volumetric flow rate, \(q=80.8\left(\mathrm{~m}^{3} / \mathrm{s}\right)\) using the formula:\(q=C A_{1} \sqrt{\frac{2 g V\left(p_{1}-p_{2}\right)}{\left(1-\left(\frac{A_{1}}{A_{2}}\right)^{2}\right)}}\)\(\begin{array}{ccc}q & \text { volumetric flow rate } & m^{3} / s \\ C & \text { dimensionless coefficient } & 0.6 \\ A_{1} & \text { cross-sectional area } & 1.0 \mathrm{~m}^{2} \\ A_{2} & \text { cross-sectional area } & 2.0 \mathrm{~m}^{2} \\ V & \text { specific volume } & 0.001 \mathrm{~m}^{3} /...
Need help! Do I need a chart or something to help with
these? thanks everyone
au must show your work for all problems and the answers must be in correct form SI to SI basic unit 1) 0.0327 Mm ? m 2) 742,380.56 ? m For 3 thru 11 do the conversion in either scientific form OR decimal form-not both! YOU MUST SHOW YOUR WORK to get full credit for a correct answer SI to SI 3) 5,543 mg -?...
Can someone please explain how to do this?
your work for the first 2 problems below* You must show your work for all problems and the answers must be in correct form SI to SI basic unit 1) 0.0327 Mm-? m For 3 thru 11 do the conversion in either scientific form OR decimal form--not both! 2) 742,380.56 um-? m YOU MUST SHOW YOUR WORK to get full credit for a correct answer SI to SI 3) 5,543 mg-? kg...