please show all work. thank youHomework Answers
Add Answer to:
please show all work. thank you
4. For the system illustrated below, the diameter at pt....
make sure you show all work and its easy to read thank you 2. A 108-inch-diameter...
make sure you show all work and its easy to read thank
you
2. A 108-inch-diameter commercial steel pipe is used to pump water through a 500-ft intertie pipeline at a flow rate of 234 cfs. What is the head loss based on the Hazen-Williams equation? Levee Field
Please show all work and where you get each value from. Don't assume i know where...
Please show all work and where
you get each value from. Don't assume i know where you get a value
from. Thank you
3. Calculate total head loss in a new galvanized iron pipe with the length of 1000 m and diameter of 12", if the total flow rate is: a) 0.2 cfs, b) 0.9 cfs. If the max HL is 5 ft per 1000 ft, evaluate a and b scenarios. Assume the temperature 20°C. How do you evaluate Velocity...
Please show all steps. Thank you A 1.0-cm-diameter pipe widens to 2.0 cm, then narrows to...
Please show all steps. Thank you A 1.0-cm-diameter pipe widens to 2.0 cm, then narrows to 5.0 mm. Liquid flows through the first segment at a speed of 7.0 m/s . A) What is the speed in the second segment? b) What is the speed in the third segment? C) What is the volume flow rate through the pipe?
please solve and show full work. Thank you The pump in the nozzle system provides the...
please solve and show full work. Thank you
The pump in the nozzle system provides the power of 5 hp (power - YHQ). When the flowrate of water (p=1.94 Slugs/ft?) is 5 ft/s. If all losses are negligible (hr-0), determine (a) the exit pressure (P2) and (b) the applied reaction force, FX 1hp=550 lb ft/s and g=32.2 ft/s. Please use the continuity, Newton's 2nd law and the energy equation and don't forget the control volume sketch. Water P=1 psi Pump...
Please help with the following matlab code and please show all work. Thank you! Viscous losses in a pipe are expressed...
Please help with the following matlab code and please show all
work. Thank you!
Viscous losses in a pipe are expressed in terms of a friction factor, f. It is important to know the frictional forces in pipe flow because they result in pressure loss which must be accounted for in the piping system. For turbulent low in pipes, the friction factor is caleulated using the Colebrook e/D 2.51 where e is the roughness height, D is the pipe diameter...
Name Net ID Date: 3. For the pipe system illustrated below A. For the pipes, complete...
Name Net ID Date: 3. For the pipe system illustrated below A. For the pipes, complete the following table (compute the head losses flows and velocities for pipes B and C) Pipe L(t) D (in) A (ft) 8 0.34907 6 0.19635 4 0.08727 80.34907 Q (cfs) 2.1599 6,188 002 8 926 11000 0.02 0.02 2.1599 6.188 002 5951 4000 B. Compute the pressure (in psi) at junction J-1 (at an elevation of 270 WSE 300 ft f-o 02 all lines...
Please show all work and steps. Any help will be appreciated and thank you for your...
Please show all work and steps. Any help will be appreciated and
thank you for your time!
Using Mohr's Circle, determine the plane stress state (Cy', Oz', Ty’z) of the element shown below when it is rotated 60° counterclockwise. If your work does not demonstrate use of Mohr's Circle, you will get zero points. Answer: 350 psi 75 psi 200 psi
Q_in = 0.09 QC_out = 0.03 QE_out = 0.06 DeltaZ = 18 Please show all work...
Q_in = 0.09
QC_out = 0.03
QE_out = 0.06
DeltaZ = 18
Please show all work for good rating.
1. Find the flow rate through each branch and the head loss at each node for the following 2-loop piping system Select a suitable pump for this piping system 2. loop Qin loop 2 (Qc) out 6 3. Use the piping diameters, roughness, lengths, loss coefficient provide in table on page 2 4. Flow rates (Qin,Qout), and elevation difference will be...
Please show all work thank you! The pressure tank shown below can be considered to be...
Please show all work thank you!
The pressure tank shown below can be considered to be a thin walled cylindrical tank with spherical end caps. It has a diameter of 5.000 feet, with a cylindrical wall thickness of 0.5000 inches and has spherical end caps. Find the thickness of the spherical end caps, so that they have the same maximum stress in the metal as the maximum stress in the cylindrical wall. The same type of metal will be the...
Please answer the following question using the numerical iteration method and show all steps! Thank you!...
Please answer the following question using the numerical
iteration method and show all steps! Thank you!
Problem 1 A duct with diameter D, surface roughness ε, and length L = 1500 feet transports air with specific weight Yair = 0.0752 lbs/ft' at volume flow rate of Q = 9000 ft/min. A pressure gradient of Ap/L is measured in inch of water per 1500 feet of duct. Use either a graphical method (preferred) or a numerical iteration method to fill out...
make sure you show all work and its easy to read thank
you
2. A 108-inch-diameter commercial steel pipe is used to pump water through a 500-ft intertie pipeline at a flow rate of 234 cfs. What is the head loss based on the Hazen-Williams equation? Levee Field
Please show all work and where
you get each value from. Don't assume i know where you get a value
from. Thank you
3. Calculate total head loss in a new galvanized iron pipe with the length of 1000 m and diameter of 12", if the total flow rate is: a) 0.2 cfs, b) 0.9 cfs. If the max HL is 5 ft per 1000 ft, evaluate a and b scenarios. Assume the temperature 20°C. How do you evaluate Velocity...
please solve and show full work. Thank you
The pump in the nozzle system provides the power of 5 hp (power - YHQ). When the flowrate of water (p=1.94 Slugs/ft?) is 5 ft/s. If all losses are negligible (hr-0), determine (a) the exit pressure (P2) and (b) the applied reaction force, FX 1hp=550 lb ft/s and g=32.2 ft/s. Please use the continuity, Newton's 2nd law and the energy equation and don't forget the control volume sketch. Water P=1 psi Pump...
Please help with the following matlab code and please show all
work. Thank you!
Viscous losses in a pipe are expressed in terms of a friction factor, f. It is important to know the frictional forces in pipe flow because they result in pressure loss which must be accounted for in the piping system. For turbulent low in pipes, the friction factor is caleulated using the Colebrook e/D 2.51 where e is the roughness height, D is the pipe diameter...
Name Net ID Date: 3. For the pipe system illustrated below A. For the pipes, complete the following table (compute the head losses flows and velocities for pipes B and C) Pipe L(t) D (in) A (ft) 8 0.34907 6 0.19635 4 0.08727 80.34907 Q (cfs) 2.1599 6,188 002 8 926 11000 0.02 0.02 2.1599 6.188 002 5951 4000 B. Compute the pressure (in psi) at junction J-1 (at an elevation of 270 WSE 300 ft f-o 02 all lines...
Please show all work and steps. Any help will be appreciated and
thank you for your time!
Using Mohr's Circle, determine the plane stress state (Cy', Oz', Ty’z) of the element shown below when it is rotated 60° counterclockwise. If your work does not demonstrate use of Mohr's Circle, you will get zero points. Answer: 350 psi 75 psi 200 psi
Q_in = 0.09
QC_out = 0.03
QE_out = 0.06
DeltaZ = 18
Please show all work for good rating.
1. Find the flow rate through each branch and the head loss at each node for the following 2-loop piping system Select a suitable pump for this piping system 2. loop Qin loop 2 (Qc) out 6 3. Use the piping diameters, roughness, lengths, loss coefficient provide in table on page 2 4. Flow rates (Qin,Qout), and elevation difference will be...
Please show all work thank you!
The pressure tank shown below can be considered to be a thin walled cylindrical tank with spherical end caps. It has a diameter of 5.000 feet, with a cylindrical wall thickness of 0.5000 inches and has spherical end caps. Find the thickness of the spherical end caps, so that they have the same maximum stress in the metal as the maximum stress in the cylindrical wall. The same type of metal will be the...
Please answer the following question using the numerical
iteration method and show all steps! Thank you!
Problem 1 A duct with diameter D, surface roughness ε, and length L = 1500 feet transports air with specific weight Yair = 0.0752 lbs/ft' at volume flow rate of Q = 9000 ft/min. A pressure gradient of Ap/L is measured in inch of water per 1500 feet of duct. Use either a graphical method (preferred) or a numerical iteration method to fill out...
Most questions answered within 3 hours.
-
To buy a new house you must borrow $155,000. To do this you take
out a...
asked 5 seconds ago -
Spacely Sprockets is evaluating the construction of a new plant
on land the company purchased for...
asked 49 minutes ago -
1. Consider a linear regression model of y on K regressors and
an intercept.
(i) Describe...
asked 50 minutes ago -
Enter a balanced equation for the reaction between hydrochloric
acid and sodium sulfite.
Express your answer...
asked 55 minutes ago -
Give a regular expression describing the language
{x | x ∈ Σ* and x does not...
asked 56 minutes ago -
Masses of 1.0 kg, 2.0 kg, and 3.0 kg are each separately subject
to a net...
asked 1 hour ago -
The mode of philosophical argumentation and thought. How do
philosophers think and write? What is important...
asked 1 hour ago -
At the beginning of the unit, you were asked whether you thought
it was appropriate or...
asked 1 hour ago -
Calculate the grams of carbon in 9.32 x 10+23 molecules of
benzene (C6H6).
asked 1 hour ago -
A 5-year Treasury bond has a 4.95% yield. A 10-year Treasury
bond yields 6.6%, and a...
asked 1 hour ago -
suppose you own a chain of five restaurants in
downtown Vancouver. as the manager, you want...
asked 1 hour ago -
Here are summary statistics for randomly selected weights of
newborn girls:
nequals=225x overbarxequals=28.7hg, sequals=7.5hg. Construct a...
asked 1 hour ago