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A cube container is completely filled with water and weighed 245KN.
- Compute the length of a side of a cube.
- Compute also the pressure exerted by the bottom side of the cube with the floor.
I need a clear step by step solution for this. Also, please include illustrations for me to understand more.
Step by step
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- A cube container is completely filled with water and weighed 245KN. Compute the length of a side of a cube. Compute also the pressure exerted by the bottom side of the cube with the floor. I need a clear step by step solution for this. Please make it step by step for me to understand.A wooden buoy (s.g. = 0.62) is 70 mm by 70 mm by 5 m long is made to float in sea water (s.g. = 1.025). How many N of steel (s.g. = 7.85) should be attached to the bottom to make the buoy float with exactly 650 mm exposed above the water surface? Show step-by-step, and explain each step. Thank you.Part D - Analyzing a system of forces acting on a concrete slab The concrete slab shown in the picture is subject to four forces, F1=125 lb, F2=260 lb, F3=675 lb, and F4=255 lb. (Figure 3) The dimensions are d1=8.0 ft, d2=24 ft, d3=3.0 ft, d4=13 ft, and d5=9.5 ft. Determine the equivalent resultant force by specifying its magnitude and its location (x,y) on the slab. Express your answers, separated by commas, to three significant figures. FR, x, y= lb, ft,ft
- Please be clear and detailed with your answer. Write an explanation for the formula you used. A Triangular gate having a horizontal base of 1 30 m and an altitude of 2 m is inclined 45 o from the vertical with vertex pointing upward The base of the gate is 2 70 m below the surface of oil s 0 80 What normal force must be applied at the vertex of the gate to open it? Show figureConstruct a theoretical background for Fluid Displacement Method for Measuring Volume Solids. Cite your references.Make an introduction about Fluid Displacement Method for Measuring Volume Solids. Cite your references.
- look for the force and magnitude of the given figure.Show the step-by-step solution including the free body diagrams.Required information NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. To test the strength of a 625 x 500-mm suitcase, forces are applied as shown. Take P= 100 N. P 80 mm 212 N 450 mm 100 mm !B 100 N 280 mm 180 N D Locate the two points (x and y) where the line of action of the resultant intersects the edge of the suitcase. The line of action of R intersects top AB at x= 134.7 The line of action of R intersects side BC at y= 269.4 O m below B m to the left of B
- The top block weighs 50 lb while the bottom box weighs 25 lb. The coefficient of static friction for all surfaces is 0.15 while that of kinetic friction is 0.10. What is the horizontal force P to be applied on the bottom block that is needed to cause impending motion on the bottom block? Note: Write the corresponding units or measurements. All answers should be in three decimal places.An inverted cone is placed in a water tank as shown. If the weight of the cone is 16.5 N, what is the tensile force in the cord connecting the cone to the bottom of the tank? Refer to Figure no. 4.Please refer to the attached drawing. For the given case study, do the following: a. At points 1 and 2 label the following: pressure head, velocity head, and static head. b. Draw the EGL and HGL. c. Use equations (e.g. continuity, energy and the equations for EGL and HGL) and logic to describe what happens at each transition point.