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Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE) PDF Download

A. Beams

Beams are the best examples of a system of coplanar non-concurrent systems. We will restrict our study only to finding reactions of such determinate beams

Determinate and Indeterminate structures 

1. Determinate Structures : Structures in which the equilibrium equations are sufficient to find the forces and stresses associated with the structure

r = 3n

2. Indeterminate Structures : Structures in which the equilibrium equations alone are not sufficient to find the forces and stresses associated with the structure

r > 3n

where r - no. of reactions and n - no. of equilibrium equations

 

Type Of Supports 

1. Simple Support : If one end of a beam simply rests on a support, the support is known as simple support. The beam is free to slide and rotate at simple support and the reaction is perpendicular to the surface. Eg : Scale resting on two tables

2. Roller Support : The end which is supported on a frictionless roller to permit contraction and expansion due to temperature or lateral forces is known as roller support. The reaction in roller support is normal to the surface

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

3. Hinged/Pined Support : This support does not permit movement along any direction but is free to rotate. The reaction components are taken along horizontal and vertical directions. Eg – Hinges of doors and windows

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

4. Fixed Support : At fixed support, the beam is not free to slide or rotate along any direction. The reaction components include horizontal, vertical and moment.

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

Types of Loadings 

1. Concentrated load or Point Load: If a load acts at a point, either horizontal, vertical or inclined, it is called a concentrated load or point load. If the load acts at a very small area, it is taken as a point load. It is expressed in N or Kn.

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

2. Uniformly Distributed Load :This type of load is spread over acertain length with the intensity of load being constant. It is expressed in N/m or kN/m. The resultant load R=wL acts at a midpoint of udl.

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

3. Uniformly Varying Load: This type of load is spread over a certain length with the intensity of load varying linearly. The resultant load R=wL/2 acts at a distance of 1/3 from point of action of w N/m.

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

4. Pure Moment : A pure moment force or couple can also act on beams. The unit of moment is kNm.

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

B. Equilibrium of General Coplanar Systems

Apart from beams there are a number of coplanar systems whose reactions is of interest. Here is one question put forth for those who wish to solve it.

1. Calculate the force and moment reactions at the bolted base O of the overhead traffic-signal assembly. Each traffic signal has a mass of 36 kg, while the masses of members OC and AC are 50 kg and 55 kg, respectively. The mass center of member AC is at G.

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

Types of Forces

Forces that act on a body can be divided into two general categories—

  • Applied forces (action)
  • Reactive forces (or, simply reactions)

Reaction

Reaction is the opposing force that a support offers whenever it is acted upon by external or inherent forces.

Free Body Diagram

Free body diagram is a diagram in which a rigid body is isolated from the system and all active forces applied to the body and reactive forces as a result of mechanical contact are represented.

Examples

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

Steps for Drawing Free Body Diagram
1. A sketch of the body is drawn assuming that all supports (surfaces of contact, supporting cables, etc.) have been removed.
2. All applied forces (including weight) and support reactions are drawn and labeled on the sketch.
3. Apply the weight of the body to its center of gravity (if it is uniform, then apply it to the centroid). If the sense of a reaction is unknown, it should be assumed

Equilibrium of Rigid Bodies

A rigid body is said to be in equilibrium if the resultant of all external and reactive forces and moments acting on it is zero.

Lami’s Theorem

If three coplanar concurrent forces acting on a body keep it in equilibrium, then each force is proportional to the sine of the angle between the other two”

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

Note: Lami’s theorem is applicable only to 3 coplanar concurrent forces in equilibrium

Proof

By applying polygon law of forces, draw triangle OAB representing the system of forces shown with external angles as indicated

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

Applying Sine Law

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)


General Equations of Equilibrium

1. The algebraic sum of all forces in a force system is zero.

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

2. The algebraic sum of all moments in a force system is zero.

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)


Equations of Equilibrium For Coplanar Systems

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

 

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE)

 

Solving Equilibrium Problems

1. Draw proper Free- Body Diagram
2. Resolve all the forces into x and y components
3. Apply Equilibrium conditions along the x and y directions
4. Solve the resultant algebraic equations
In case of moments, try to select the point you take moments around such that the line of action of at least one unknown force passes through that point. This will eliminate one unknown from your moment equation and will result in simpler equations to work with.

 

The document Equilibrium of Rigid Bodies | Engineering Mechanics - Civil Engineering (CE) is a part of the Civil Engineering (CE) Course Engineering Mechanics.
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FAQs on Equilibrium of Rigid Bodies - Engineering Mechanics - Civil Engineering (CE)

1. What is the concept of equilibrium of rigid bodies?
Ans. The equilibrium of rigid bodies refers to a state where the external forces and torques acting on a body are balanced, resulting in no linear or rotational motion of the body.
2. How can you determine if a rigid body is in equilibrium?
Ans. A rigid body is in equilibrium if the vector sum of all the external forces acting on it is zero and the sum of all the torques acting on it about any point is also zero.
3. What are the conditions for the equilibrium of rigid bodies?
Ans. The conditions for the equilibrium of rigid bodies are that the sum of all the external forces acting on the body must be zero (ΣF = 0) and the sum of all the torques acting on the body about any point must be zero (Στ = 0).
4. How can you analyze the equilibrium of a rigid body in three dimensions?
Ans. To analyze the equilibrium of a rigid body in three dimensions, you need to resolve all the forces and torques into their respective components along the x, y, and z axes, and then apply the equilibrium equations in each direction.
5. What are the practical applications of understanding the equilibrium of rigid bodies?
Ans. Understanding the equilibrium of rigid bodies is crucial in various engineering fields such as civil engineering, mechanical engineering, and architecture, as it helps in designing stable structures and machinery that can withstand external forces without collapsing or failing.
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