This is for my fluid mechanics class. I need help please. Thank you 5. Gate AB...
Gate AB in Figure A2 is a homogeneous mass of 180 kg, 1.2 m wide into the paper, hinged at A, and resting on a smooth bottom at B. All fluids are at 200 C. a) If the moment about the centre of gravity of a submerged plate at an angle e is defined as FYCP = Then show that this moment is given by [5marks] [3 marks b) Draw a diagram with all forces acting on the gate AB...
Fluid Mechanics Question 4: The gate shown in the figure below is 4.5 feet into the screen and hinged @ point B and rests against a smooth wall @ A. Compute the the horizontal force (in pounds) @ point A? (numeric value only - No units). The dimensions are as follows: Hw = 12 ft., yg = 6 ft., xg = 8 ft. QUESTION 4 The gate shown in the figure below is 4.5 feet into the screen and hinged...
The rectangle gate AB in Figure 1 is 1.5 m wide, is hinged at point B, and rest against a smooth wall at point A. Compute: (a) the pressure due to seawater at point A, (3 Marks) (b) the force on the gate due to seawater pressure, (5 Marks) C) the horizontal force P exerted by the wall at point A, and (7 Marks) (d) the reaction at the hinge B (5 Marks) Wall Seawater: 10,000 N/m 4.5 m А...
A rectangular gate 1.2 m wide and 3.5 m long is inclined 35°from a smooth wall. The gate is hinged at point B, and rests against a smooth wall at A which is 2.7 m below the water surface. a. Compute the force on the gate due to seawater pressure (s.g. = 1.03). b. Determine the location of the force from the center of gravity of the gate. c. determine the horizontal force P exerted by the wall at point...
solve all please Gate AB in the figure below is a quarter circle 3 m wide into the paper and hinged at B. A jet of water with velocity V, is directed radially toward the gate exactly in its middle. The jet diameter is 5 cm and it flows smoothly on the surface of the gate without friction. The gate has a mass of 300 kg. The centroide ofa quarter circle area is located at a dste m from the...
Need help with this Fluid Mechanics question. Please help me to solve step by step. Thank you! Initial mass, Mo 4.27 A pressurized tank of water is mounted on a cart as shown. A jet issues from a nozzle in the tank at a constant speed and propels the cart along a horizontal track. The initial mass of the cart and tank is 100 kg, and the nozzle area is 0.005 m2. Determine the jet speed required to accelerate the...
Hi, I need help with this Fluid Mechanics question. Please show all the steps. Thank you PROBLEM 1: Consider the steady flow in a water pipe joint shown in the diagram. The areas are: A1 = 0.2m2, A2 = 0.2m2, and A3 = 0.15m². In addition, fluid is lost out of a hole at (4), estimated at a rate of 0.1 m3/s. The average speeds at sections (1) and (3) are V1 = 5 m/s and V2 = 12 m/s...
This is a fluid mechanics problem. could you do part A and B. Thank you ows steadily through a 600 reducing elbow and exits to the atmosphere, as shown in the figure below. The entire elbow is in the horizontal plane. The absolute pressure at section I is P 200 kPa. If the x-component of the force needed to keep the elbow in place is R, 10 kN, compute the following: a) The volumetric flow rate in m/s, through the...
Hello, I need help with a problem for my Quantum Mechanics class. Please explain as if I am learning for the first time. I want to be able to understand and do problems like this on my own. Thank you in advance for your help! The infinite square well has solutions that are very familiar to us from previous physics classes. However, in this class we learn that a quantum state of the system can be in a superposition state...
Hi, I need the full worked solutions (step-by-step with explanations where necessary) for all parts of this question please. The final answers to each part are given below the questions. Would greatly appreciate neat handwriting and clear steps. Thank you! :) Question 4 A uniform rod AB of weight W and length 2a, rests in equilibrium with its end A against a smooth vertical wall PQ, and its end B on a rough inclined plane OQ at an angle a...