5.7 : Equations of Equilibrium in Three Dimensions

Consider a tripod placed on a floor; its leg is connected using a ball and socket joint at A and the other end B is on the floor.

When the resultant force and the resultant couple moment acting on the leg is zero, the leg is said to be in equilibrium and can be expressed with the help of equations of equilibrium.

Since the leg is under equilibrium, it satisfies the vector and scalar equations of equilibrium.

According to the vector equations of equilibrium, all external forces acting on the leg must have a vector sum of zero. The vector sum of all couple moments and the moments of all the forces about a point must also be equal to zero.

According to the scalar equations of equilibrium, if the external forces are expressed in the cartesian form, then the summation of the component of forces along the respective directions must be zero.

Similarly, the scalar summation of the components of a moment in the x, y, and z axes must also be zero.

When analyzing structures or systems at rest, it is necessary to ensure they are in equilibrium. This is where the vector and scalar equations of equilibrium come into play. These equations are crucial in ensuring a structure is stable and will not collapse or fall apart. The vector and scalar equations of equilibrium provide a framework for analyzing the forces acting on a body.

According to the vector equations of equilibrium, the vector sum of all the external forces acting on a body must equal zero. Furthermore, the vector sum of the couple moments and the moments of all the forces about a point must also be equal to zero.

Equation 1

The scalar equations of equilibrium state that if the external forces are expressed in the Cartesian form, then summation of the components of the forces along the respective directions must be zero.

Equation 2

Similarly, the scalar summation of the components of a moment in the x, y, and z axes must also be zero.

Equation 3

These equations are fundamental in mechanical engineering, ensuring that structures are safe and stable.

Tags

Equations Of Equilibrium Three Dimensions Vector Equations Scalar Equations Forces Stability Mechanical Engineering External Forces Couple Moments Cartesian Form Summation Of Components X axis Y axis Z axis

From Chapter 5:

article

Now Playing

5.7 : Equations of Equilibrium in Three Dimensions

Equilibrium of a Rigid Body

1.1K Views

article

5.1 : Conditions of Equilibrium

Equilibrium of a Rigid Body

678 Views

article

5.2 : Support Reactions

Equilibrium of a Rigid Body

386 Views

article

5.3 : Internal Forces and Center of Gravity

Equilibrium of a Rigid Body

302 Views

article

5.4 : Alternative Sets of Equilibrium Equations

Equilibrium of a Rigid Body

374 Views

article

5.5 : Two Force Member

Equilibrium of a Rigid Body

882 Views

article

5.6 : Three Force Member

Equilibrium of a Rigid Body

942 Views

article

5.8 : Support Reactions in Three Dimensions

Equilibrium of a Rigid Body

935 Views

article

5.9 : Constraints and Statical Determinacy

Equilibrium of a Rigid Body

583 Views

Copyright © 2025 MyJoVE Corporation. All rights reserved