How to calculate the angle at which a cylinder topples?

  • Thread starter Thread starter help12345
  • Start date Start date
  • Tags Tags
    Angle Cylinder
AI Thread Summary
To calculate the angle at which a cylinder topples, one must determine the position of its center of mass, which is typically at the cylinder's center. The critical angle for toppling is defined as the angle between the vertical or horizontal and the line connecting the center of mass to the edge of the base. The mass of the cylinder does influence the toppling angle, but the geometry and distribution of mass are more critical factors. Understanding the relationship between the center of mass and the base edge is essential for determining stability. Proper calculations can help in assessing the conditions under which the cylinder will remain upright or topple over.
help12345
Messages
2
Reaction score
0
I know the mass, length, and width of a cylinder. How do I calculate the angle at which the cylinder topples over? A quick Google search tells me that I need to find the cylinder's center of mass, which should be the actual center of the cylinder.


This is for a personal project and not homework related. I was unable to reply to Mark44's private message so I'm stating it here.
 
Physics news on Phys.org
What do think you should do with the center of mass? Where's it going to be to not topple, or to topple?
 
Bystander said:
What do think you should do with the center of mass? Where's it going to be to not topple, or to topple?
Don't know...
Does the mass of the cylinder affect it's "toppling angle"?
 
In general, the critical angle, or the angle at which an object is about to topple is the angle between the vertical/horizontal and the line passing through the centre of mass and the edge over which the object is about to topple.
 

Thread 'Off resonance driving of a MW/RF cavity'

Hello! Let's say I have a cavity resonant at 10 GHz with a Q factor of 1000. Given the Lorentzian shape of the cavity, I can also drive the cavity at, say 100 MHz. Of course the response will be very very weak, but non-zero given that the Loretzian shape never really reaches zero. I am trying to understand how are the magnetic and electric field distributions of the field at 100 MHz relative to the ones at 10 GHz? In particular, if inside the cavity I have some structure, such as 2 plates...
View full post »

Similar threads

I Assumptions for Navier Stokes equations in this system
Replies
3
Views
1K
I Work in hydrostatic system in cylinder with piston: P_int or P_ext?
Replies
5
Views
2K
Calculating flux through a plane cutting two concentric cylinders
Replies
26
Views
1K
I Some questions about toppling of a set of two cylinders
Replies
10
Views
7K
B Determine forces acting on double inclined plane
Replies
13
Views
2K
I Atmospheric Density vs Altitude in an O'Neil Cylinder
Replies
1
Views
3K
Doublet flow in Fluid Dynamics between two spheres or cylinders
Replies
0
Views
1K
Time to empty gas cylinder (problem worked, but would like feedback)
Replies
7
Views
3K
Massflow of steam to be supplied to a drying cylinder
Replies
7
Views
2K
A slanted cylinder full of liquid about to fall
Replies
12
Views
2K

Hot Threads

Recent Insights

Back
Top