The cable segments support the loading, shown. Determine the distance yc from the force at Cto...
Problem 4. The cable supports the loading shown below. Determine the magnitude of the vertical force P so that yc= 10ft. 8 ft 4 ft- 10 ft- eA 5 ft yc V4k
determine the shear force (lb) at B for the loading
shown
Determine the shear force (Ib) at A for the loading shown. Note: Be mindful of the established sign convention. 60 Ib/ft 5 ft 6 ft 84.0000 D Question 9 Note: Be mindful of the established sign convention. Determine the shear force (Ib) at B for the loading shown. 60 lb/ft 5 ft 6 ft 3 ft ft
determine the magnitude of the equivalent resultant
force.
determine the distance x from support A to the location where
the resultant force is applied to the beam.
determine the reaction at support A.
W w = 3x - 0.1 x? (lb/ft) 16 ft @ 2 6 7 8 9 0 3 4 5 a WER Trullole 100 raps lock MOSISO CODE command control option
Problem 1 Consider the beam-column shown. Determine whether the beam can support the loading shown. Be sure to consider any secondary moment effects. The beam-column size is W16x100 and it is part of a frame that is braced against sidesway. Note that Cb 1.0 for this loading. P=500 k M 200 k-ft 15' ) M = 250 k-ft P 500 k
Problem 1 Consider the beam-column shown. Determine whether the beam can support the loading shown. Be sure to consider...
Problem 3.2 Determine the moment around B from the cable, and the perpendicular distance from point B to cable AC Student ID Number: Given Length (ft) 10 Cy-5+C Tension in cable500 lbs Break force into their x, y, z components using unit vector uni AC vector Fx AX dz chec 2.Calculate moments of forces about (0,0) M-rxFrx ry rz Fz Mi Mk- Total M 3. Find the perpendicular distance from point A to the cable BC DistForce
Problem 3.2 Determine...
For the beam and loading shown in Figure A2: - a. Determine the support reactions b. Draw the shear and bending moment diagrams c. Determine the maximum absolute value of shear force and bending moment P= 100 N P= 140 N w = 30 N/m A B 4 m 7 m 10 m 3 Figure A2.
The cable supports the loading shown in (Figure 1). Part A Determine the magnitude of the horizontal force P so that XB = 8 m. Express your answer to three significant figures and include the appropriate units. uÀ ? P= Value Units Submit Previous Answers Request Answer Figure 1 of 1 X Incorrect; Try Again; 4 attempts remaining XB 4 m B < Return to Assignment Provide Feedback P 6 m 1 1 m 600 N D 1 -2 m-
PROBLEM 4 For the beam and loading shown determine the support reactions. --3 -- -3 ---3m- 16 lins Slips PROBLEM 5 For the beam and loading shown determine the support reactions. D
The cable shown in the following figure is subjected to the uniform loading. If the slope of the cable at point is zero, determine: 1- The equation of the curve, and [ABET: 1.1- 3 Marks] 2- Determine the maximum and minimum tension in the cable. [ABET: 1.3-4 Marks 10 m 10 m 16 kN/m
2-P15 Determine the force in each cable needed to support the 100 kg load. Tr Bc Cp 6 ft 2 ft 6 ft 2 ft 100(48) 481 N