Difference in Distributed Loads: Up vs Down, -30kN/m

In summary, the conversation discusses the difference between a distributed load with arrows pointing up and a standard distributed load with an arrow pointing down, with a focus on the direction of force and the value given. The conversation also mentions the need for clarity in the diagram and the context in which it arises. Finally, the conversation concludes with a possible interpretation of the question being asked.
  • #1
TyErd
299
0

Homework Statement


what is the difference between a distributed load with arrows pointing up like the once i have attached and just the standard distributed load where the arrow is pointing down. Does it mean the force is acting up the beam instead of down?the value given is -30kN/m. does that mean its actually a load acting downwards


Homework Equations


None


The Attempt at a Solution


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  • #2
That sort of just means that the load is on the underside of the beam.
 
  • #3
but then would the negative 30kN/m change the direction? meaning its acting downwards on the beam?
 
  • #4
I think in copying the diagram you have lost some of its clarity. Are you sure it's a beam? Maybe it's two beams or bodies, with the lower one supporting the upper one? (Like a man lying on a bed of nails.)

As you can't have a force without an opposing one, then if the lone arrow represents pressure (and it would be better to have multiple arrows for this), then the multitude of up arrows should indicate the beam's reaction. (A more vivid interpretation would be that this represents the cross-section of a wall of a pressure or vacuum vessel.)

The fact that you have pressure written as kN/m doesn't give confidence that the diagram is exactly correct. Maybe it isn't pressure; maybe it's a single force. And why a curved arrow?

You need to supply the context in which the diagram arises.
 
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  • #5
sorry about that, its just part of a larger question which i have in another thread. I have attached the complete diagram.
 
  • #6
What quantity is measured in kN/m ?

Do you mean this to be pressure, or moment, or ... ?
 
  • #7
its a uniformly distributed force/load which can then be simplified to a point load (single force as you mentioned earlier)
 
  • #8
TyErd said:
its a uniformly distributed force/load which can then be simplified to a point load (single force as you mentioned earlier)

Ah, now I understand. Two separate sketches would have been better.

So has your question been answered? In fact, what was your question?

Probably this would arise as: what single force applied to the end of the beam would exert the same torque about the beam's point of attachment as does a uniformly distributed load along the length of the bean of x N/m.
 

Q1: What is the difference between distributed loads going up and down?

The main difference between distributed loads going up and down is their direction. A distributed load going up means that the load is applied from the bottom to the top, while a distributed load going down means that the load is applied from the top to the bottom.

Q2: What is the unit of measurement for distributed loads?

The unit of measurement for distributed loads is typically kilonewtons per meter (kN/m). This unit measures the amount of force per unit length that is applied to a structure.

Q3: How does a distributed load affect the stability of a structure?

A distributed load can affect the stability of a structure by exerting a force on different parts of the structure, causing it to bend or deform. The direction and magnitude of the load can also impact the overall stability of the structure.

Q4: Why is it important to consider the direction of a distributed load?

The direction of a distributed load is important because it affects how the load is distributed and how it will impact the structure. A load going up will have a different effect on a structure than a load going down, and this must be taken into account when designing and analyzing structures.

Q5: What are some common examples of distributed loads?

Some common examples of distributed loads include the weight of people or furniture on a floor, the weight of vehicles on a bridge, or the pressure of wind or water on a building. These loads are distributed over a certain area or length, rather than being concentrated at a single point.

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