The jib crane is designed for a maximum capacity of 7 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 = 4.4 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 = 1.0 m? (b) What is the value of R when x = 4.3 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?

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
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The jib crane is designed for a maximum capacity of 7 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 = 4.4 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 = 1.0 m?
(b) What is the value of R when x = 4.3 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?
30°
m
7 kN
1.2 m
Questions:
(a) If x= 1.0 m, R=
(b) If x= 4.3 m, R=
i
(c) The minimum value for R = i
(d) The pin should be designed to hold
-3.4 m
i
i
KN
KN
kN at x =
i
KN.
Transcribed Image Text:The jib crane is designed for a maximum capacity of 7 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 = 4.4 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 = 1.0 m? (b) What is the value of R when x = 4.3 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? 30° m 7 kN 1.2 m Questions: (a) If x= 1.0 m, R= (b) If x= 4.3 m, R= i (c) The minimum value for R = i (d) The pin should be designed to hold -3.4 m i i KN KN kN at x = i KN.
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