Which weight will upset this table

In summary, the conversation discusses an equilibrium problem involving finding the smallest weight that can tip over a table with four light legs equally spaced around its circumference. The solution involves drawing a picture, finding the fulcrum, and considering rotational equilibrium. The added weight must balance the torque due to the weight of the table for it to start tipping.
  • #1
Scott55
1
0
This is an equilibrium problem. I do not know where to start, I usually do not run into this problem but for some reason I cannot start this problem.

Here is the question: Given a table with four light legs equally spaced around the circumference of a uniform circular top weighting 80N, find the smallest weight that, when placed on the table, will be able to upset it.

Thank you.
 
Physics news on Phys.org
  • #2


Originally posted by Scott55
This is an equilibrium problem. I do not know where to start, I usually do not run into this problem but for some reason I cannot start this problem.
First draw yourself a picture of the table and the four legs. Where is the best place to push down if you wanted to tip it over? (Hint: it's not the center!)

To find how much weight you need, first find the fulcrum about which the table will tilt. Then consider rotational equilibrium about that point. When the torque of the added weight just balances the torque due to the weight of the table, the table will start to tip.
 
  • #3


To solve this problem, we need to consider the concept of equilibrium. In order for the table to remain stable, the forces acting on it must be balanced. This means that the weight of the table, 80N, must be counteracted by the weight of the object placed on it.

To determine the smallest weight that can upset the table, we need to find the point at which the table becomes unbalanced. This occurs when the weight of the object is greater than the weight of the table. In other words, the object needs to exert a force that is greater than 80N in order to upset the table.

To find this weight, we can use the concept of torque. Torque is the force that causes rotation and is calculated by multiplying the force by the distance from the pivot point. In this case, the pivot point is the center of the table.

We can set up an equation to represent this situation:

Torque of table = Torque of object

The torque of the table is given by 80N x 0, as the distance from the center to the legs is 0. The torque of the object is given by the weight of the object, W, multiplied by the distance from the center to where it is placed, which we can call r.

80N x 0 = W x r

We can rearrange this equation to solve for W:

W = (80N x 0) / r

Since we are looking for the smallest weight that can upset the table, we want to find the smallest value of W. This occurs when r is the greatest possible distance from the center. In this case, the greatest possible distance is half of the diameter of the table, or the radius. This means that r = 0.5m.

Plugging this value into our equation, we get:

W = (80N x 0) / 0.5m = 160N

Therefore, the smallest weight that can upset the table is 160N. Any weight greater than this will cause the table to become unbalanced and upset. I hope this helps you to understand how to approach and solve this type of equilibrium problem.
 

1. What is the maximum weight that this table can hold?

The maximum weight that a table can hold depends on various factors such as the type of material used, the design of the table, and the distribution of weight. Generally, a strong and sturdy table made of solid wood or metal can hold more weight than a lightweight table made of plastic or particle board. It is recommended to check the manufacturer's guidelines or weight capacity label for a specific table.

2. Can I put heavy objects on this table without it breaking?

It ultimately depends on the weight capacity of the table and the type of objects being placed on it. If the table is designed to hold heavy objects, it should be able to withstand the weight without breaking. However, it is always recommended to distribute the weight evenly and not exceed the weight capacity to prevent any damage.

3. How can I determine if a table is strong enough to hold a certain weight?

To determine if a table is strong enough to hold a certain weight, you can refer to the weight capacity label or guidelines provided by the manufacturer. You can also inspect the material and structure of the table to see if it is sturdy enough to withstand the weight.

4. Is there a way to reinforce a table to hold more weight?

Yes, there are ways to reinforce a table to hold more weight. One way is to add additional support by using sturdy legs or braces. Another way is to use a thicker and stronger material for the table's surface, such as solid wood instead of particle board. However, it is important to note that these methods may alter the appearance and functionality of the table.

5. What happens if I exceed the weight limit of a table?

If you exceed the weight limit of a table, it may cause the table to break or collapse. This can not only damage the table but also pose a safety hazard. It is important to follow the weight capacity guidelines to ensure the longevity and safety of the table.

Similar threads

  • Introductory Physics Homework Help
Replies
13
Views
1K
  • Introductory Physics Homework Help
Replies
13
Views
857
  • Introductory Physics Homework Help
Replies
2
Views
2K
  • Introductory Physics Homework Help
Replies
2
Views
4K
  • Introductory Physics Homework Help
Replies
3
Views
823
  • Introductory Physics Homework Help
Replies
4
Views
976
Replies
22
Views
6K
Replies
11
Views
1K
  • Introductory Physics Homework Help
Replies
5
Views
16K
  • Introductory Physics Homework Help
Replies
6
Views
1K
Back
Top