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![Reacron, Max = [14016* 6Ft] - [TX 6Ft) = 10 20 lb Ft – (115.90916s xaft) :: Max = | 3240 55 Ft 325 Ft db](http://img.homeworklib.com/questions/3c610660-9dfc-11ea-85e9-3d4904361d02.png?x-oss-process=image/resize,w_560)
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Bar ADB is supported by a thrust bearing at A and a vertical wire at B....
Bar ADB is supported by a thrust bearing at A and a vertical wire at B....
Bar ADB is supported by a thrust bearing at A and a vertical wire at B. Knowing that Fis vertical with a magnitude of F = 150 lb and that the section of bar from D to B is L = 1.2 ft long, determine the tension in the wiere and the reactions at A. Enter the magnitude of the reaction Max below. Express you answer in ft·lb to the nearest whole ft·lb. 1.5 ft Your written solution must include...
Bar ADB is supported by a thrust bearing at A and a vertical wire at B....
Bar ADB is supported by a thrust bearing at A and a vertical wire at B. Knowing that Fis vertical with a magnitude of F = 130 lb and that the section of bar from Dto Bis L - 1.9 ft long, determine the tension in the wire and the reactions at A. Enter the magnitude of the reaction Max below. Express you answer in ft-lb to the nearest whole ft·lb. 6 ft 1.5 ft Your written solution must include...
Part A The bar is supported by the thrust bearing A and the cable BC. Suppose...
Part A The bar is supported by the thrust bearing A and the cable BC. Suppose that 48 lb . (Figure 1) Determine the components of reaction that the thrust bearing A exerts on the bar using scalar notation. Express your answers using three significant figures separated by commas. Figure 1 of 1 lb Submit Request Answer ▼ Part B Determine the components of moment of reaction that the thrust bearing A exerts on the bar using scalar notation Express...
Q. 2 Determine the component of reaction that the thrust bearing A and cable BC exert...
Q. 2 Determine the component of reaction that the thrust bearing A and cable BC exert on the bar. (0.5 point) F = 80 lb B D 6 ft 1.5 ft 1.5 ft у
The shaft is supported by a smooth thrust bearing at B and a journal bearing at C
The shaft is supported by a smooth thrust bearing at B and a journal bearing at C. Determine the resultant internal loadings acting on the cross section at E. Suppose that P1 = 450 lb. P2 = 800 1b (Figure 1) Determine the resultant internal normal force NE.Determine the resultant internal shear force VE.Determine the resultant internal bending moment ME.
Problem 5.80 Part A The bar AB is supported by two smooth collars. At A the...
Problem 5.80 Part A The bar AB is supported by two smooth collars. At A the connection is with a ball-and-socket joint and at B it is a rigid attachment Suppose that F 85 lb load is applied to the bar. (Figure 1) Determine the z, y, z con Express your answers Figure 1 of 1> vec Az. Ay. Ag 6 ft SubmitRe Request 4ft 6ft Part B 5 ft Determine the c, y. z Express your answer
Question Completion Status QUESTION 1 The metal pipe AB is supported by a thrust bearing at...
Question Completion Status QUESTION 1 The metal pipe AB is supported by a thrust bearing at A, and a rope at B. The direction cosines for rope BC are as defined below. When the two forces are applied as shown, please determine the support reactions at A and the tension in rope BC. Please write all equilibrium equations and clearly indicate the direction and magnitudes of all forces and moments direction canine age = 55.5" dirertion corner - 112.09 03...
Problem 1: The rigid bar AD is supported by two thin stel wires of 0.0625.in. om...
Problem 1: The rigid bar AD is supported by two thin stel wires of 0.0625.in. om psi) and a pin and bracket at D. Knowing that the wires were initially taut, each w each wire when a 120-lb load P is applied at B, (b) the corresponding st displacement of points A, B and C, (d) vertical reaction at pin D. taut, determine (a) the tension in stress in each wire, (e) and the diameter (E-29 x 10 and the...
Knowing that Pis 24 kN, applied to both sides of the bar at Band Q is...
Knowing that Pis 24 kN, applied to both sides of the bar at Band Q is 45 kN, applied to the bar at Cas shown. What is the internal normal force acting on a vertical cross-section passing through the bar between points A and B? Express your answer in Newtons (not kN), to the nearest whole Newton, taking tension as positive and compression as negative. B4 - 400 mm — -600 mm
Figure below shows the load components acting on a helical gear mounted on a simply supported...
Figure below shows the load components acting on a helical gear
mounted on a simply
supported shaft. Bearing B takes thrust. A flexible coupling for
transmitting
torque attaches to the right end of the shaft. The left end is
free.
1-Draw load, shear force, and bending moment diagrams for the
shaft, in both the horizontal and vertical planes.
2- Identify the most critically loaded shaft cross section, and
for this location determine the diameter theoretically required for
infinite life. Assume...
Bar ADB is supported by a thrust bearing at A and a vertical wire at B. Knowing that Fis vertical with a magnitude of F = 150 lb and that the section of bar from D to B is L = 1.2 ft long, determine the tension in the wiere and the reactions at A. Enter the magnitude of the reaction Max below. Express you answer in ft·lb to the nearest whole ft·lb. 1.5 ft Your written solution must include...
Bar ADB is supported by a thrust bearing at A and a vertical wire at B. Knowing that Fis vertical with a magnitude of F = 130 lb and that the section of bar from Dto Bis L - 1.9 ft long, determine the tension in the wire and the reactions at A. Enter the magnitude of the reaction Max below. Express you answer in ft-lb to the nearest whole ft·lb. 6 ft 1.5 ft Your written solution must include...
Part A The bar is supported by the thrust bearing A and the cable BC. Suppose that 48 lb . (Figure 1) Determine the components of reaction that the thrust bearing A exerts on the bar using scalar notation. Express your answers using three significant figures separated by commas. Figure 1 of 1 lb Submit Request Answer ▼ Part B Determine the components of moment of reaction that the thrust bearing A exerts on the bar using scalar notation Express...
Q. 2 Determine the component of reaction that the thrust bearing A and cable BC exert on the bar. (0.5 point) F = 80 lb B D 6 ft 1.5 ft 1.5 ft у
Problem 5.80 Part A The bar AB is supported by two smooth collars. At A the connection is with a ball-and-socket joint and at B it is a rigid attachment Suppose that F 85 lb load is applied to the bar. (Figure 1) Determine the z, y, z con Express your answers Figure 1 of 1> vec Az. Ay. Ag 6 ft SubmitRe Request 4ft 6ft Part B 5 ft Determine the c, y. z Express your answer
Question Completion Status QUESTION 1 The metal pipe AB is supported by a thrust bearing at A, and a rope at B. The direction cosines for rope BC are as defined below. When the two forces are applied as shown, please determine the support reactions at A and the tension in rope BC. Please write all equilibrium equations and clearly indicate the direction and magnitudes of all forces and moments direction canine age = 55.5" dirertion corner - 112.09 03...
Problem 1: The rigid bar AD is supported by two thin stel wires of 0.0625.in. om psi) and a pin and bracket at D. Knowing that the wires were initially taut, each w each wire when a 120-lb load P is applied at B, (b) the corresponding st displacement of points A, B and C, (d) vertical reaction at pin D. taut, determine (a) the tension in stress in each wire, (e) and the diameter (E-29 x 10 and the...
Knowing that Pis 24 kN, applied to both sides of the bar at Band Q is 45 kN, applied to the bar at Cas shown. What is the internal normal force acting on a vertical cross-section passing through the bar between points A and B? Express your answer in Newtons (not kN), to the nearest whole Newton, taking tension as positive and compression as negative. B4 - 400 mm — -600 mm
Figure below shows the load components acting on a helical gear
mounted on a simply
supported shaft. Bearing B takes thrust. A flexible coupling for
transmitting
torque attaches to the right end of the shaft. The left end is
free.
1-Draw load, shear force, and bending moment diagrams for the
shaft, in both the horizontal and vertical planes.
2- Identify the most critically loaded shaft cross section, and
for this location determine the diameter theoretically required for
infinite life. Assume...
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