![What is the difference between these 2 triangles? When should you know which one to use? : r/FE_Exam What is the difference between these 2 triangles? When should you know which one to use? : r/FE_Exam](https://preview.redd.it/what-is-the-difference-between-these-2-triangles-when-v0-kljranparv4a1.png?width=550&format=png&auto=webp&s=e4b9861b543ccd0c79abd7e03c396a9c4d413734)
What is the difference between these 2 triangles? When should you know which one to use? : r/FE_Exam
![Moment of inertia of an equilateral triangular lamina ABC, about the axis passing through its centre O and perpendicular to its plane is I, as shown in the figure. A cavity DEF Moment of inertia of an equilateral triangular lamina ABC, about the axis passing through its centre O and perpendicular to its plane is I, as shown in the figure. A cavity DEF](https://toppr-doubts-media.s3.amazonaws.com/images/387564/ec212edb-9ca9-4985-80fb-6bbe291cb811.jpg)
Moment of inertia of an equilateral triangular lamina ABC, about the axis passing through its centre O and perpendicular to its plane is I, as shown in the figure. A cavity DEF
![The moment of inertia of a triangular lamina of mass M and height b about its base is (A)洲 3 2 (D) Mh? The moment of inertia of a triangular lamina of mass M and height b about its base is (A)洲 3 2 (D) Mh?](https://toppr-doubts-media.s3.amazonaws.com/images/2160610/632a8fbd-477a-4624-a880-35e458f7c816.jpg)
The moment of inertia of a triangular lamina of mass M and height b about its base is (A)洲 3 2 (D) Mh?
![The moment of inertia of triangular lamina of mass M and height H about its base is\n \n \n \n \n $\\begin{align} \\text{A}\\text{. }\\dfrac{1}{2}M{{H}^{2}} \\\\ \\text{B}\\text{. }\\dfrac{1}{3}M{{H}^{2}} \\\\ \\text{C}\\text{. }\\dfrac{1}{6}M{{H}^{2 ... The moment of inertia of triangular lamina of mass M and height H about its base is\n \n \n \n \n $\\begin{align} \\text{A}\\text{. }\\dfrac{1}{2}M{{H}^{2}} \\\\ \\text{B}\\text{. }\\dfrac{1}{3}M{{H}^{2}} \\\\ \\text{C}\\text{. }\\dfrac{1}{6}M{{H}^{2 ...](https://www.vedantu.com/question-sets/eb762c45-e776-4dde-ae09-1a14d08258cc739103760804396401.png)
The moment of inertia of triangular lamina of mass M and height H about its base is\n \n \n \n \n $\\begin{align} \\text{A}\\text{. }\\dfrac{1}{2}M{{H}^{2}} \\\\ \\text{B}\\text{. }\\dfrac{1}{3}M{{H}^{2}} \\\\ \\text{C}\\text{. }\\dfrac{1}{6}M{{H}^{2 ...
![The figure below is a cross-section of a beam. Determine the location of the neutral axis referenced from the bottom and then find the area moment of inertia. | Homework.Study.com The figure below is a cross-section of a beam. Determine the location of the neutral axis referenced from the bottom and then find the area moment of inertia. | Homework.Study.com](https://homework.study.com/cimages/multimages/16/capture1304862660337782979875.png)
The figure below is a cross-section of a beam. Determine the location of the neutral axis referenced from the bottom and then find the area moment of inertia. | Homework.Study.com
![Centroid, Area, Moments of Inertia, Polar Moments of Inertia, & Radius of Gyration of Triangular Areas Centroid, Area, Moments of Inertia, Polar Moments of Inertia, & Radius of Gyration of Triangular Areas](https://www.efunda.com/math/areas/images/triangle0.gif)
Centroid, Area, Moments of Inertia, Polar Moments of Inertia, & Radius of Gyration of Triangular Areas
![Mechanical Engineering: Ch 12: Moment of Inertia (14 of 97) Second Moment of Area: General: Ex. 1 - YouTube Mechanical Engineering: Ch 12: Moment of Inertia (14 of 97) Second Moment of Area: General: Ex. 1 - YouTube](https://i.ytimg.com/vi/Nu1TOgCAD-c/hqdefault.jpg)