8.2.8. Use integration to determine the point load and its location (centroid) that are equivalent to...
For the distributed load shown below, determine the equivalent force's magnitude and location, measured from point O. Let a = 1.41 kN/m3,6 = 3.80 kN/m² , and L = 2.70 m.
Determine the coordinates of the centroid of the area shown in inches by integration. Use a horizontal strip that has thickness dy. x= in y= in Determine the coordinates of the centroid of the area shown in inches by integration. Use a horizontal strip that has thickness dy. l in 3 in 3 in 2 in Determine the coordinates of the centroid of the area shown in inches by integration. Use a horizontal strip that has thickness dy. l in...
Structure Analysis Refer to Figure 2, determine the location of the 40 kN load such that sags at point B and C are 3 m and 2 m respectively. Determine the maximum tension in the cable and the reactions at support A and D 4 m 3 m 2 m 40 kN 20 m 10 m 10 m Figure 2 Refer to Figure 2, determine the location of the 40 kN load such that sags at point B and C...
3. Using direct integration determine the location of the ga,? centroid of the hemisphere shown e arening (22 pts Jdv dv dv ? a. ??a de. Not a-tide! 2.
Determine the coordinates of the centroid of the green triangular area in feet. Use integration. 3.9 ft 6.3 ft ft ft Determine the coordinates of the centroid of the line shown in millimeters. (Hint: Do not attempt to evaluate the integrals 3 mm y = (0.9.x* - 24.3 x) mm IXI mm mm
USE INTEGRATION 3. Determine the coordinates of the centroid of the shaded area. b -- - - - x
Required Information A cantilever beam experiences a point load at its free end (Point A). The member has a length of L and a rectangular cross section of base b by height h. where p= 3 kN, L = 3 m, b= 9 cm, and h = 20 cm In this part, you will find the beam shear stress at one-fourth of h from the top of the rectangle. First, use the equation Q= A y. The area A is...
4. (12 points) Replace the distributed load on the beam with a statically equivalent concentrated force and determine the location of that force with respect to point B. T equation of the parabola is wx)-37.5x2+800, where the origin is at point B. he Vertex Parabola 800 N/m 200 N/m 4. (12 points) Replace the distributed load on the beam with a statically equivalent concentrated force and determine the location of that force with respect to point B. T equation of...
Determine the location of the centroid of the shape, enter it as the distance from the bottom left corner of the channel. 0.5" 0.5"| 1.5" 1.5" 0.5" 0.5")
Question 4: For the Figure below determine the location of the centroid (x,y). 150 mm 150 mm 100 mm 100 mm 250 mm 85 mm Question 3: For the Figure below determine the location of the centroid (,y). 108 mm 36 mm| 24 mm 400 mm X 48 mm 150 mm Question 2: Figure below is symmetrical about the vertical Y axis. Calculate the distance of the centre of area (centroid) of cross section from the base. 0.5 in. 0.5...