The J-shaped member shown in the figure(Figure 1) is supported by a cable DE and a single journal bearing with a square shaft at A. Determine the reaction forces Ay and Az at support A required to keep the system in equilibrium. The cylinder has a weight WB = 6.00lb , and F = 1.30lb is a vertical force applied to the member at C. The dimensions of the member are w = 1.50ft , l = 6.00ft , and h = 2.00ft .
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The J-shaped member shown in the figure(Figure 1) is supported by a cable DE and a single journal bearing with a squa...
The J-shaped member shown in the figure(Figure 1) is supported by a cable DE and a single journal bearing with a square shaft at A. Determine the reaction forces Ay and Az at support A required to keep the system in equilibrium. The cylinder has a weight WB = 5.70 lb , and F = 2.00 lb is a vertical force applied to the member at C. The dimensions of the member are w = 1.50 ft , l =...
The member is supported by a pin at A and cable BC. Suppose that T = 2.5 m and the cylinder has a mass of 35 kg. (Figure 1) Determine the tension in the cable BC Express your answer to three significant figures and include the appropriate units. O! A Thc = 1057 mo ? kN Submit Previous Answers Request Answer X Incorrect; Try Again; 5 attempts remaining Figure 10f1 Part B Determine the components of reaction force at the...
Figure Q5(b) shows a frame ABCDE that is supported by a hinge at A and E b) ) Construct the free body diagram for the entire structure, the disc and member DBE t) By applying equation of equilibrium, determine the horizontal and vertical components of the force that is acting on the hinge of member DBE il) if the weight of the cylinder is increased to 60 N and all the reaction forces are remain unchanged evaluate the new radius...
b) Figure Q5(b) shows a frame ABCDE that is supported by a hinge at A and E )Construct the free body diagram for the entire structure, the disc and member DBE i) By applying equation of equilibrium, determine the horizontal and vertical components of the force that is acting on the hinge of member DBE li) If the weight of the cylinder is increased to 60 N and all the reaction forces are remain unchanged, evaluate the new radius of...
The beam shown (Figure 1) is supported by a pin at A and a cable at B. Two loads P = 13 kN are applied straight down from the centerline of the bottom face. Determine the state of stress at the point shown (Figure 2) in a section 2 m from the wall. The dimensions are w = 5.2 cm , h = 10.5 cm , L = 0.8 m , a = 1.5 cm , and b = 4...
The beam shown (Figure 1) is supported by a pin at A and a cable at B. Two loads P = 13 kN are applied straight down from the centerline of the bottom face. Determine the state of stress at the point shown (Figure 2) in a section 2 m from the wall. The dimensions are w = 5.2 cm , h = 10.5 cm , L = 0.8 m , a = 1.5 cm , and b = 4...
The beam shown (Figure 1) is supported by a pin at A and a cable at B. Two loads P = 13 kN are applied straight down from the centerline of the bottom face. Determine the state of stress at the point shown (Figure 2) in a section 2 m from the wall. The dimensions are w = 5.2 cm , h = 10.5 cm , L = 0.8 m , a = 1.5 cm , and b = 4...
Q-1 The shaft shown in figure below, supported by and turns in the bearings A and B. The dimensions of the shaft are a = 120 mm and b = 30 mm. The forces on the bevel (conical) gear attached to the shaft are Wt = 4500 N, Wr = 2500 N, and Wa = 1000 N. The gear forces act at a radius R = 100 mm from the shaft axis. Determine the loads applied to the bearings (FrA...
Pulley Diameter = 800 mm Base Plate Diameter = 1200 mm Shaft Mounted Wheel Axial force F2 along the shaft axis Belt connected to motor with tension force F Figure 1. Side View Belt Bearing A. Bearing B FR = 2 kN --- - - - - - - - - - - > ---- 500 mm 500 mm 500 mm F1 = 500 N 'Fw = 1 kN Figure 2. The design of a fatigue test machine for car...
please solve with details Question#1140Marksl The shaft shown in the figure is rotating at 650 rpm and it receives 5592.75 W through a flexible coupling at its right end. The power is delivered to an adjacent shaft through a single helical gear B having a normal pressure angle of 20° and a helix angle of 15o. The pitch diameter for the gear is 105.1814 mm (4.141 in). A spacer is used to position the gear relative to bearing C. The...