a. Discuss potential and stream functions and how they relate. b. Discuss how we use the...
Use in your own words to discuss how you solve the integration of rational functions. Make sure that you include all methods which we have discussed in our class.
Q7. The flow field is defined by the complex potential function, f(z)- Uz+mlnz) a) Define the stream and potential functions, b) Define the types of the potential flows superpositioned c) Using the values, U-8 m/s and m-3 m'/s determine the pressure distribution and obtain the location op the stagnation point or points in the flow field.
Q7. The flow field is defined by the complex potential function, f(z)- Uz+mlnz) a) Define the stream and potential functions, b) Define the types...
Q7. The flow field is defined by the complex potential function, f(z)- Uz+mlnz) a) Define the stream and potential functions, b) Define the types of the potential flows superpositioned c) Using the values, U-8 m/s and m-3 m2/s determine the pressure distribution and obtain the location op the stagnation point or points in the flow field.
Q7. The flow field is defined by the complex potential function, f(z)- Uz+mlnz) a) Define the stream and potential functions, b) Define the types...
Please answer questions 1-5 so it is readable
QUESTIONS I. What are the advantages of determining the electric fields by the equipotential method? 2. Discuss and compare the superposition principle as applied to the addition of electric fields and to the addition of potential fields. 3. Explain why the equipotentials are straight lines for the parallel plates and concentric circles for the point charge. 4. Can you use equation 38.14 to verify your potential at some point on your graph...
a) Derive the general stream function of a potential flow around a cylinder of radius R given the stream functions Y of a uniform flow and a doublet are uniformUy 'doublet where Uis the speed of the uniform flow and C is the strength of the doublet. (5 marks) b) Find the specific stream function assuming the streamline on the surface of the cylinder is Ψ-0 (5 marks) c) Find the velocities at two points (-3R, 0 and (-2R, 0)....
hydraulics Q3
Question3 a) Discuss the principle of Linear Superposition as applied to interacting ells in a multiple well field and show how this principle can be used to represent the effects of a stream. 5 marks b) i. Calculate the steady state drawdown at a 0.2m diameter pumping well fined aquifer if the pumping well is 50m which fully penetrates a con from a river which is in full hydraulic connection with the aquifer. The Transmissivity of the aquifer...
Discuss various sources of error, and how the conductive paper set
ups differ from ideal representations of the electric fields and
potential from two flat sheets of charge and from two point
particles.
This is the electric field and potential mapping experiment.
There was a point set-up and a bar set-up for voltmeter
readings.
cases, real life differs from the ideal. As part of your Figure 1: The Conductive Paper is still Since the ink does not cover the entire...
PROBLEM Solve the initial value problem (we discuss how to do this, but did not yet do this in class) x¨ + ω2x = sin(ωt), x(0) = x˙(0) = 0 First step: find a solution to the non-homogeneous equation. PROBLEM Find a solution of non-homogeneous equation x¨ + ω2x = cos2(ωt) Hint: use previous lecture material and homework to represent cosine-squired as a sum of trigonometric functions.
How does network development relate to the work breakdown schedule (WBS)? Discuss how the WBS is related to project network development. How can the project manager reduce problems when integrating the work package and the network? Describe how the project manager can eliminate problems during the integration.
We have potential of 0, 0 < x < a. V(x) = Joo, elsewhere. a Find the ground state energy and the first and second excited states, if an electron is enclosed in this potential of size a = 0.100 nm. b Find the ground state energy and the first and second excited states, if a 1 g metal sphere is enclosed in this potential of size a = 10.0 cm. c Are the quantum effects important for both systems?...