9.89 Determine I, and Iy for the region shown. 90 mm 60 mm 90 mm Fig. P9.89
Q: *9–28. Locate the centroid i of the shaded area. 9–29. Locate the centroid ỹ of the shaded area.
A: Find area of shaded portion:A=∫0100y2dx-∫0100y2dxA=∫0100xdx-∫0100x2100dxA=121002-13001003A=1666.67…
Q: 2) Determine the moments of inertia for the cross- sectional area of the member about the x and y…
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Q: B-Determine the moment of inertia of the shaded area of the figure below about y axis only.
A: Moment of inertia of different section about Y axis: quarter circle OBD:IYY1=π×4416=50.265 m4Right…
Q: 6-50. Determine the radius of gyration of the shade area of Fig. P6-50 with respect to the x axis…
A: Given:- A figure is given with dimensions Radius of the circle (R1) = 3 in Radius of the…
Q: 9.21 and 9.22 Determine the polar moment of inertia and the polar radius of gyration of the shaded…
A: Please refer the attached image for complete solution. THANK YOU.
Q: 10-132 Determine the mixed second moment Ixy for the shaded area shown in Fig. P10-130. 20 mm y =…
A: Draw the following diagram for the given shaded region: The given equation of the curve is as…
Q: Determine the slope and deflection at point B of the beam shown by the direct integration method. 50…
A: Given data: E=70 GPaI=164×106 mm4
Q: Part (B) Determine the deflection at the free end of the beam shown in Fig. using conjugate beam…
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Q: Determine the centroid of the darkened region.
A: Divide the given area into 4 sections as follows:
Q: Determine the centeroid of the shaded area * ?shown in fig y 8 R= 1.5 5 4 个
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Q: In fig. , if L= 100 cm and the angle = * ?--- =25°, h Paim 4. 0.422 cm (O 0.422 m O
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Q: Determine the location of the centroid of rod. +15cm 20cm 40ст 35ст
A: - Let O be the origin and the centroid is calculated with respect of origin and thickness of rod be…
Q: Find for the moment of inertia of the region shown Fig. 9.19
A: Consider the given figure. Calculate the depth of the neutral axis of the given figure.…
Q: Determine the centeroid of the shaded area * ?shown in fig
A: Divide the whole area into five areasA1=area of rectangle=8×5=40m2 with local centroid (4,…
Q: 100 kN C 21
A: Given:- To find:- -End moments-Reaction calculation
Q: haded area shown in Fig. 7.24 with respect to the corner point O. Take x = 40 mm
A: Draw the diagram
Q: 6-51. Determine the moment of inertia of the shadei area of Fig. P6-51 with respect to the x axis.…
A: Draw FBD:
Q: 500 N 20° 50 Fig 1
A: As per guidelines we need to answer only first question so please repost rest question separately
Q: -11. In Fig. P 4-11, bodies A and B remain at rest on smooth planes. The weight of body A is 200 lb.…
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Q: 18 in 6 in 6 in 6 in a) Determine the coordinates of the centroid of the plane region. b) Determine…
A: The plane region is as shown
Q: 6-52. Determine the moment of inertia of the shaded area of Fig. P6-52 with respect to the y axis.…
A: Draw FBD:
Q: 7-82. The material distorts into the dashed position shown. Determine the average normal strains…
A: The figure is shown below,
Q: 3m 4.5m
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Q: 7.87 Can the uniform bar of weight W remain at rest in the position shown? = 0.6 60 30° Fig. P7.87
A: Show the free body diagram of uniform bar weight ABC as in Figure 1.
Q: Solve Problem 15.18 for the loading shown in Fig. P15.18 and a settlement of 6 mm at Support A 18…
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Q: Q3// Determine the moment of inertia of the shaded area about the centroid axis Ix. 2mm 5mm 1mm 5mm
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Q: Q1. Locate the centroid of the shaded area shown in the Figure (1). 3 m X. 9 m 12 m 10 m Figure (1)…
A: Data Given: Asked: Locate the centroid
Q: Q.No 6. a) Determine the horizontal deflection at joint E of the truss shown in Fig. due to a…
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Q: 3-35. Determine the x coordinate of the centroid of the shaded area in Fig. P3-35. 2" 3" 2" 3" 5"…
A: Centroid: The point at which the total area of the given figure is concentrated is known as…
Q: Calculate the position and magnitude (in terms of EI) of the maximum deflection in the beam shown in…
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Q: Q4/ Find the centroid of the shadeo area shown in figure below. 2
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Q: 4. The distances from the centroid of the shapes in Fig. (1.4) (1 &2) to X and Y axes, (y₁, x₁) are-…
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Q: YA 45 CM 20 CM 100 CM
A: This question is from basic of slod mechanics . Here a fig is given and radius of gyration is…
Q: The 6-cm-diameter 20°C water jet in Fig. P3.64 strikes a plate containing a hole of 4-cm diameter.…
A: step 1-
Q: Find the area of the region that lies inside the cardioid r=1+ cos 6 and outside the circle r= 1.
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Q: 1.2 cm 9.43 Determine the moments of inertia Ix and Iy of the area shown with respect to centroidal…
A: Given above figure we have to find Ix and Iy
Q: 16.23 Determine the member end moments and reactions for the frame in Fig. P16.23 for the loading…
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Q: |10 F2 = 160 N F1 = 110 N 15 Fig. 3
A: magnitude = 229.3 Ndirection(θ) = 54.230 explanation is given below
Q: Locate the centroid of the plate area shown in Figure. SN- 121 (SN/10) ft 1 ft 2 ft (MN/10) ft 1 ft
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Q: A BB-series Astromech Droid of mass 154 kg is suspended by the truss structure shown. The truss…
A: Given weight = 154 kg w = 3 m
Q: P412. 6' 9' 12' 30° 5200 lb FIG. P-413.
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Q: 9.44 Determine the moments of inertia Tx and Ty of the area shown with respect to centroidal axes…
A: Let 1 be bottom rectangle, 2 be middle rectangle, and 3 be top rectangle.…
Q: Locate the y centroid of the cross-sectional area of the built-up beam. 150 mm 150 mm 20 mm 200mm…
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Q: 1. Determine the centroid (y-bar) of the shaded area measured from the base: [ Select] 2. Determine…
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Q: Determine the moments of inertia Ix and Iy of the area shown with respect to centroidal axes…
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Q: y res 150 mm 60 mm 150 mm Fig 2 x'- 250 mm 30 mm 30 mm
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- Rotation of bar OA is controlled by the lead screw which imparts a horizontal velocity v to collar C and causes pin P to travel along the smooth slot. Determine the values of and dot theta where r= overline OP if h = 160mm x = 120mm and v = 25mm / s at the instant represented.I cannot understand these For point of contraflexural, 40090300=200×x90300 x=2 m θA=0 (fixed support) θDA=θD-θA=θD=Area of MEI Dia between A and D = 19030012×600×3+600×4+12×300×3-12×200×2 =355090300 θD=0.03931 radianθD= 2.252° Deflection at point D ∆D=31-CosθD ∆D=2.3176×10-3 mm Deflection at point D is 2.3176×10-3 mmDetermine the deflection at point D using moment area method. A. 164400/EIB. 164600/EIC. 144600/EID. 146400/EI
- Moment wrt point AThe slotted arm OA rotates about a fixed axis through O. At the instant under consideration, θ = 32°, θ˙ = 47 deg/s, and θ¨ = 21 deg/s2. Determine the magnited of the force F applied by arm OA and the magnitude of the force N applied by the sides of the slot to the 0.3-kg slider B. Neglect all friction, and let L = 0.64 m. The motion occurs in a vertical plane.please help us to solve the moment at CD, Moment at D and moment at A Moment CD choices: -9.17kN-m -13.39kN-m -15.56kN-m -18.01kN-m Moment at A choices -49.51kN-m -32.99kN-m -12.55kN-m -55.05kN-m for Moment at D -11.09kN-m -40.82kN-m -34.43kN-m -24.34kN-m we really need your help thank you very much for the help
- For the section shown in Fig.1 if the applied moment =200 KN.m, n=12, b =841 mm, d=500 mm, As =1814 mm2, bw=250 mm, and hf =101mm. Find location of neutral axis (kd) 107.8 mm 161.2 mm 146.6 mm 130.8 mm 179.7 mm 140.4 mm 147.1 mm 132 mmQ) All answers of second moment of area shall be in \times× 106 mm4 Solve it early I upvotePerform the indicated operation: (5+2i)+(7+4i)