Determine the location of the centroid of the shape, enter it as the distance from the...
Determine the location of the centroid along the vertical (y) axis, Report the location based on a distance from top of the channel.
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...
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...
For the shaded shape shown 1. Calculate the area of the shaded shape 2. Calculate the location of the x-centroid of the shaded shape 3. Calculate the location of the y-centroid of the shaded shape 4. Calculate the moment of inertia of the shaded shape about the y centroidal axis 5. Calculate the moment of inertia of the shaded shape about the x centroidal axis 6. Calculate the moment of inertia about the x axis (along the bottom of the...
centroid y-bar for the 5. (5 pt) Determine the location of the bent wire shape. 600 mm 400 mm
Problem 8 Determine the distance from the bottom to the centroid for the cross section Determine the moment of inertia about the horizontal axis through the centroid. 1 in. 3 in. 15 in. 5 in. 4 in 6 in. 2 in. 12 in.
Can you please only solve for
6,7,8, and 9
A channel shape is used to support the loads shown on the beam. The dimensions of the shape are also shown. Assume beam and determine B 3 ft, L 29 ft, P 2150 lb, w =900 lb/ft b 13 in d=10 in t=0.750 in. Consider the entire 12 t length of the (a) the maximum tension bending stress at any location along the beam, and (b) the maximum compression bending stress...
1. For the following shape, a. Find the location of centroid. b. Find the area moment of inertia about "y" axis 50 30-- x. 15 Dimensions in mm
d. For the area shown below (dimensions in ft), determine the centroid location (ū and y) and calculate the moments of inertia (Iz' and Iy about the centroid axes). y 3 ft 3 ft + 1 ft 1.5 ft X
8.2.8. Use integration to determine the point load and its location (centroid) that are equivalent to the line load in E8.2.8. 2.0 kN/m 0.5 kN/m l. 10 m 3 m E8.2.8