For the shape shown above, b has a value of 4
For the shape shown above, b has a value of 4 Calculate the location of the...
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...
OBLEM 2. 25%. For the section shown in the figure, determine (a) The location Xog and yeg of the centroid of the composite section; (b) Ixx, the moment of inertia about the x-axis (c) Ix-eg, the moment of inertia about an axis parallel to the x-axis that passes through the centroid 19 R:5"
x = ky2 X For the section shown, it k has a value of 2 and b has a value of 8: 1. Calculate the area of the shaded area 2. Calculate the distance from the y axis of the x centroid 3. Calculate the distance from the x axis of the y centroid 4. Calculate the moment on inertia about the y centrodial axis 5. Calculate the moment of inertia about the x centroidal axis 6. Calculate the moment...
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
A square sheet of aluminum is uniformly 3.8mm
thick. It was cut to the shape shown along the function y =
xb (b = 0.59), and retaining the part
below the curve. The density of aluminum is ? =
2.70x103 kg/m3.
(a) Calculate Iy, the moment-of-inertia
about the y-axis, of the piece of aluminum sheet shown in the
figure above.
(b) Calculate Ix, the moment-of-inertia
about the x-axis, of the piece of aluminum sheet shown in the
figure above.
I'd...
3) Calculate the centroid location (7 and moment of inertia (1y) about the y-axis for the following shape: 3 in. 6 in. 3 in. 6 in. 18 in.
how to work this problem? please give me work. thank you.
E For the cross section shown, find: a. The location of the centroid b. The moment of inertias (x, y, xy, & polar) about the centroid c. The principal MOI and the angle of the principal axis d. Find the radii of gyration about the principal MOI. y,ref 0 X,ref Value Units ybar xbar Ixbar lybar I polar Ixybar Imax Imin kmax kmin
Question ) a) For the composite area shown, determine the position of the centroid, (x,y) options: a) none of these are correct. b) (0,0) c) (4.8, 2.6) m d) (9, 4.5) m e) (2.6, 4.8) m b) For the triangular shape shown, locate the horizontal position of the centroid, x. Question 17 options: a) b/2 b) h/2 c) 2h/3 d) h/3 e) b/3 c) For the triangular shape shown, locate the vertical position of the centroid, y. options: a) b/3...
2. CENTROID AND MOMENT OF INERTIA For the shape shown below, determine the following: (Make sure to label or describe the different segments.) a. Centroid (Xbar, Ybar) b. Moment of inertia about the x-axis (lx) C. The radius of the circle is 0.75 ft. NOTE: Use only the equations at the end of this test. (Hint: 4 segments) у 1 ft 1 ft 3 ft 3 ft Sõda S dA SỹdA j= S dA ΣΧΑ x= ΣΑ ΣΥΑ y =...
2. CENTROID AND MOMENT OF INERTIA For the shape shown below, determine the following: (Make sure to label or describe the different segments.) a. Centroid (Xbar, Ybar) b. Moment of inertia about the x-axis (lx) C. The radius of the circle is 0.75 ft. NOTE: Use only the equations at the end of this test. (Hint: 4 segments) у 1 ft 1 ft X 3 ft 3 3 ft ſõda Ž= S dA Sõda j = S dA ΣΧΑ ž=...