Also,
Determine the roller placement x of the load so that it gives the minimum reactions at the supports.
Calculate the minimum reactions at the support A.
Calculate the minimum reaction at support B.
Also, Determine the roller placement x of the load so that it gives the minimum reactions...
Problem 5.38 The cantilevered jib crane is used to support the load of 780 lb. If the trolley T can be placed anywhere between 1.5ft < z < 7.3ft, determine the maximum magnitude of reaction at the supports A and B. Note that the supports are collars that allow the crane to rotate freely about the vertical axis. The collar at B supports a force in the vertical direction, whereas the one at A does not. (Figure 1) Part A...
HW-3: Ch. 4 roblem 4.19 The jib crane is pin connected at A and supported by a smooth collar at B. If = 7.4 ft. determine the reactions on the jb crane at the pin A and smooth collar B. The load has a weight of 5500 lb (Figure 1) Part A Determine the reactions on the jib crane at the pin A Express your answers using three significant figures sep comma. Assume that the positives and yaxes are direct...
Consider the beam shown in (Figure 1). The roller at A and the pin at B can support a load up to 4 kN and 8 kN, respectively. PartA Determine the maximum intensity of the distributed load w, measured in kN/m, so that failure of the supports does not occur Express your answer using three significant figures vec Figure 1 of 1> kN/m u, = Submit Request Answer Provide Feedback Next > 30 3 m 4 m homework answers
Ideal Column with Pin Supports Learning Goal: To use the formula for the critical load, i.e., the Euler buckling load, for pin-supported columns to calculate various parameters of columns. Ideally, a column that is perfectly straight and has an axial load applied exactly at the centroid of its cross section will not yield until the internal normal stress reaches the yield stress of the material. Real-world columns, however, are subject to small asymmetries, whether due to irregularities of shape or...
m Review Learning Goal: To use the formula for the critical load, i.e., the Euler buckling load, for pin-supported columns to calculate various parameters of columns. A column is made from a rectangular bar whose cross section is 5.5 cm by 9.1 cm . If the height of the column is 2 m, what is the maximum load it can support? The material has E = 200 GPa and Oy = 250 MPa Express your answer with appropriate units to...
Part B Calculate the load II Review A square steel bar has a length of 2.2 ft and a 1.5 in by 1.5 in cross section and is subjected to axial compression. Under load, the thickness becomes 1.50032 in . If the modulus of elasticity is E = 2.9x 104 ksi and Poisson's ratio is v = 0.31; what is the magnitude of the load that was applied to the bar? Learning Goal To use Poisson's ratio and Hooke's law...