E=200,000 Gigapascals I=41.6x106 mm4 10KN/m A 21 B I 8 meters 4 meters
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Q: 24KN/m 12kN/m Зт 5m 8m
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A: E = 5000 ksi = 720000.00 ksf I = 1000 in4 = 0.0482 ft4
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Q: E = 29,000 ksi I= 20 in 150 Ib 240 lb 0.3 k/ft B A 10 ft 8 ft 10 ft
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Q: 24kN/m 12kN/m Зт 5m 8m
A: Only part (a) with double integration is solved. Please post other parts as seperate questions as…
Use the GENERAL FORMULA OF THE THREE MOMENT EQUATION to solve the questions. Show full and clean solutions.
1. Sketch shear force diagram
2. Sketch the bending moment diagram
3. Determine the deflection at B
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- From the figure shown below: |-100 mm--100 mm-–150 mm - 150 mm 150 mm 75 mm 1. Determine the distance of the centroid from the x axis. 450 x10^6 2. Determine the moment of inertia of the shaded area about the x axis. a a. 1.72 x109 mm4 b. 3.23 х109 mm4 c. 2.46 x109 mm4 d. 4.11 x109 mm4 e. none of the above 3. Determine the moment of inertia of the shaded area about the y axis. c a. 1.09 x109 mm4 b. 3.71 х109 mm4 2.03 x109 mm4 d. 4.83 x109 mm4 С. e. none of the aboveHow many significant figures are there in each of the following? (a) 0.136 m, (b) 0.0001050 g, (c) 2.700 10–3 nm, (d) 6 10–4 L, (e) 56003 cm3evaluate the following step by step Pc(1200mm)/1200m^2(83000Mpa)=2x(Pa(900mm))/300mm^2(200000)
- 0.787826 liter / 0.0013SITUATION: A steel tape with coefficient of linear expansion of 0.0000116 per °C is known to be 50 m long at 20°C. The tape was used to measure a line which was found to be 532.28 m long and when the temperature was 35°C. Zoom image Find the temperature correction for the measured line. 0.0691 0.0861 0.0816 0.0619SITUATION: A steel tape with coefficient of linear expansion of 0.0000116 per °C is known to be 50 m long at 20°C. The tape was used to measure a line which was found to be 532.28 m long and when the temperature was 35°C. Zoom image Find the correct length of the line. O532.62 532.29 532.86 532.37
- The sprinter begins from rest at position A and accelerates along the track. If the stationary tracking camera at O is rotating at the rate of 15.4 deg/s when the sprinter passes the 55-m mark, determine the speed v of the sprinter and the counterclockwise value of r. ZESUMM Part 1 39 m 11 m Calculate the distance r, the angle 0, and the rate of rotaion of the camera 0 in rad/s.• Determine the Inertia (Ix) of the material shown from the X- Axis (not on the centroidal axis) 180 mm 60 mm 220 40 mm mm 40 mm 120 mm O 210.89x10^6 mm^4 O110.89x10^6 mm^4 O 7.79x10 6 mm^4 O 449.44x10^6 mm^4 O 8.49x10^7 mm^4 « PreviousCivil Engineering 3) A vertical aerial image is photographed using a camera has an angle of view equal 100 degrees. Three points appear in that image which are A, B and C. Points A and B are the top and the bottom of a tower. The ground distance of BC equals to 3395.4 meters. The principle distance to point (a) on the top of the tower is 80.32 mm as measured on the image by a micro ruler. The image format is : 230 x 230 mm. image coordinates (mm) Elevation Point (m) x- coordinate y- coordinate B 50.31 52.71 75.33 68.78 -75.17 79.65 Determine the focal length of the used camera. Compute the flaying height above see level. Determine the tower height (AB). please write solution number not the way of solving the problem