Problem 2 Determine the reactions at the beam supports for the given loading. 3.5 kN/m 15...
PROBLEM 7: Determine the reactions at the beam supports for the given loading. 200 lb/it |--6--1--6--
Determine the reactions at the beam supports for the given loading.(Class uses Engineering Mechanics and Statics 5th Edition by Bedford and Fowler and this material is covered in Chapter 7.3-Distributed Loads)
determine the reactions at the supports for the beam shown. 150 kN stant 40 kN/m rmly e ex- ns of and 8 m 20 kN/m s as A 6 m 6 m 6 m FIG. P3.17
Please indicate all solutions and equations legibly. Thank you 2-23. Determine the reactions at the supports A and B of the compound beam. There is a pin at C. 2 kN/m 4 m 6 m 2-23. Determine the reactions at the supports A and B of the compound beam. There is a pin at C. 2 kN/m 4 m 6 m
0 Question 3 a) Using the Force Method, determine the reactions at all supports. In addition to the applied loads, support at A rotates 0.005 radian counterclockwise Given E=200GPa and i=150 x 106 mm! 200 x 109 (20 marks) oda rotation 5 kN/m 25 kNm 10 m 6 m By Figure 3 b) If a spring is connected at point C, determine the force in this spring using the force Method By comparing to the solution in Question 3(a), what...
Problem 1.9 The beam supports the distributed load with Wmax 3.2 kN/m as shown. The reactions at the supports A and B are vertical. .5 m .5 m PartA Determine the resultant internal loadings acting on the cross section at point D Express your answers, separated by commas, to three significant figures. kN, kN, kN.m Submit Request Answer
Determine the reactions at the beam supports for the given loading if F1 is 360 Ib/ft. (Round the final answers to the nearest whole number.) F1 150 lb/ft 4 ft The reaction A at the beam support is The moment MA at the beam support is 3 ft lb lb-ft
1] Determine the reactions at the supports. (20 points) 3 kN 3 m 6 kN 8 kN 2 m 1] Determine the reactions at the supports. (20 points) 3 kN 3 m 6 kN 8 kN 2 m
2.4 kN/m Problem No. 1 (25%): 2 kN/m y = kx 3.0 KN 300 For the beam and loading shown, determine (a) the magnitude and location of the resultant of the distributed load (b) the reactions at the beam supports (Fig. 1). B A 0.6 m 1.2 m - 0.8 m 2.4 m —- - 10 ml Fig. 1
(b) Equilibrium of a compound beam is maintained by the fixed, pin and roller supports at A, B and C respectively. For the following loading, determine the reactions at the supports A, B and C 20 kN 6 kN/m 2 m 2 m rn (b) Equilibrium of a compound beam is maintained by the fixed, pin and roller supports at A, B and C respectively. For the following loading, determine the reactions at the supports A, B and C 20...