Structural Analysis
6th Edition
ISBN: 9781337630931
Author: KASSIMALI, Aslam.
Publisher: Cengage,
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Transcribed Image Text:A 13.7 m long beam is loaded as shown
below and the hinge support is at x=1.7
distance from the left end. If w=4.1
kN/m and P=26 kN which is positioned
at L/5 from the roller support, what will
be the reaction (in kN) at the hinge
support?
Answer in two decimal places.
Numerical values only. Don't indicate
units here, just on the submitted
solution.
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- The jib crane is designed for a maximum capacity of 9 KN, and its uniform I-beam has a mass of 240 kg. Plot the magnitude R of the force on the pin at A as a function of x through its operating range of x = 0.2 m to x = 4.3 m. On the same set of axes, plot the x- and y- components of the pin reaction at A. Do these plots on a separate piece of paper. Then answer the following questions in Wiley Plus as a check for your work. (a) What is the value of R when x = 0.8 m? (b) What is the value of R when x = 3.5 m? (c) Determine the minimum value of R and the corresponding value of x. (d) For what value of R should the pin at A be designed? 9 KN 1.6 m Questions: (a) If x= 0.8 m, R = KN (b) If x= 3.5 m, R= i KN m (c) The minimum value for R = i (d) The pin should be designed to hold -2.9 m i kN at x = kN. iarrow_forwardThe jib crane is designed for a maximum capacity of 6 kN, and its uniform I-beam has a mass of 190 kg. Plot the magnitude R of the force on the pin at A as a function of x through its operating range of x = 0.2 m to x = 3.8 m. On the same set of axes, plot the x- and y- components of the pin reaction at A. Do these plots on a separate piece of paper. Then answer the following questions in Wiley Plus as a check for your work. (a) What is the value of R when x = 1.6 m? (b) What is the value of R when x = 3.3 m? (c) Determine the minimum value of R and the corresponding value of x. (d) For what value of R should the pin at A be designed? 39° x m 6 KN -2.5 m 1.5 m Questions: (a) If x= 1.6 m, R= (b) If x= 3.3 m, R = i (c) The minimum value for R = i (d) The pin should be designed to hold i KN KN kN at x = kN. iarrow_forwardFrom the figure shown, determine the reactions in lb. at : a. A;b. Barrow_forward
- Use E= 200 GPa, I = 800 x 105 mm² when necessary. For the beam loaded as shown, determine the reaction components using Conjugate Beam Method 3.00 3.00 300 kNm 6.00 90 kN/m 7.00 12.0 m 4.00 6.00 P = 229kNarrow_forwardMN= 85 kN. provide fbdarrow_forwardBeam loaded in shown in the figure. Determine the maximum moment of the figure. Please show detailed solution.arrow_forward
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