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A6-5. Solve the above problem by using excel. A6-1. A water pump is delivering water to...
1) Solve the following system of linear equations using a Gauss Elimination Method (5 pts) 5x1 + 5x2 + 3x3 = 10 3x1 + 8x2 – 3x3 = -1 4x1 + 2x2 + 5x3 = 4
Solve the following problem using your choice of a software program The steps to solve the problem should be clearly outlined (can be handwritten or typed) The software program code should be printed out along with the results of the solution. DUE DATE - 8/3/2020 A steam power plant operates on the Rankine cycle with reheat, using the specified conditions below. Using stream nunbering shown in Figure 1, for each of the options given, determine: (a) The work output of...
Use Newton-Raphson root-finding method to solve. A water-pumping system consists of two parallel pumps drawing water from a lower reservoir and delivering it to another reservoir which is 40 m higher, as shown below. 40 m Pump 1: Ap = 810 – 25w, – 3.75wî (kPa) Pump 2: Ap = 900 – 65w, - 30wŹ (kPa) Pressure drop due to elevation can be written as Ap = 7.2w² + 392.28 (kPa) Also note that Wi + W2 = w (kg/s)...
2,3, 6, 7 1. Without matrices, solve the following system using the Gaussian elimination method + 1 + HP 6x - Sy- -2 2. Consider the following linear system of equation 3x 2 Sy- (a) Write the augmented matrix for this linear system (b) Use row operations to transform the augmented matrix into row.echelon form (label all steps) (c) Use back substitution to solve the linear system. (find x and y) x + 2y 2x = 5 3. Consider the...
1. Solve the system of equations using Laplace Transform(LT): With IV: x(0) 4 With IV :y (0)-5 a. Apply Laplace transform (LT) to the system and solve, by using elimination method, for x(s), and y(s). b. Apply inverse-Laplace transform (L:'T) to the system of s-functions, then solve for x(t), and y(t) 1. Solve the system of equations using Laplace Transform(LT): With IV: x(0) 4 With IV :y (0)-5 a. Apply Laplace transform (LT) to the system and solve, by using...
Problem Statement 1 The pump in the system shown below is used to transport water from reservoir A to and discharge it to the open atmosphere at point B. The elevation difference between the two reservoirs is Az, and the piping has a 2000 ft length of 16-in diameter. The flow is fully turbulent with kinetic energy correction factor = 1.1 and the Darcy-Weisbach friction factor f = 0.0002. The minor losses in the system are negligible and can be...
Chapter 04.08:Problem #1 1. Solve the following system of equations using the Gauss-Seidel method. 12x, + 7х, + 3x, %3D17 Зх, + 6х, +2х, 3D9 2x1+7x2-11x,49 = Conduct 3 iterations. Calculate the maximum absolute relative approximate error at the end of each iteration. Choose [x, x,J= [1 3 5 as your initial guess. x, Chapter 04.08:Problem #1 1. Solve the following system of equations using the Gauss-Seidel method. 12x, + 7х, + 3x, %3D17 Зх, + 6х, +2х, 3D9 2x1+7x2-11x,49...
1. Solve the following simultaneous equations (i) graphically and (ii) using the elimination method. (a) 2x + 3y = 12.5 (y on the vertical axis) (b) 4P – 3Q = 3 (p on the vertical axis) -x +2y =6 P +2Q = 20 2. Suppose the demand and supply of a good are given as P = 80 – 2Q and P=20 + 4Q (a) Calculate the equilibrium price and quantity, algebraically. (b) Suppose a per...
Problem 1: For the system provided below, perform Gauss-Siedel Method, using the following data Line | Miles| Line Bus Types pe 1-2175 Drake 2-3200 DrakeBus 1 - Slack Bus, 1-480 Drake 2-4 100 Drake 4-5 50 Drake 3-5 125 Drake 1·6-0 Bus 2 - PV Bus P-09. |V | Bus 3 - PV Bus P-0.8. IVI=1 Bus 4 - PQ Bus SDF:1.3?0.4 Bus 5 - PQ Bus SDs 0.5 +j0.2 Assumptions: Conductor spacing for each of the transmission lines is...
please solve this question using excel sheet (refrigeration systems) Q1): It is required to design a condenser that will be suitable for a refrigeration system that uses refrigerant 22 as the working fluid. The refrigeration system provides a refrigerating capacity of 50 kW for air conditioning purposes. At design conditions, the condensing temperature is 40°C while the evaporating temperature is 0°C. Cooling water enters the condenser at 25°C and leaves at 30°C. Design the condenser (calculate the required heat transfer...