Free body diagram and method of drawing free body diagram is explained with following timestamps:
0:00 – Mechanics of Solid Lecture series
0:09 – Outlines on the session
0:23 – Free Body Diagram
2:18 – Example on Drawing Free Body Diagram - 1
7:05 – Example on Drawing Free Body Diagram - 2

Following points are covered in this video:
1. Free Body Diagram
2. Example on Drawing Free Body Diagram

Engineering Funda channel is all about Engineering and Technology. Here this video is a part of Mechanics of Solids or Engineering Mechanics.

#FreeBodyDiagram #Example, #EngineeringFunda, #MechanicsOfSolids

Details of Free Body Diagram:

A free body diagram (FBD) is a simplified diagram used in physics and engineering to visualize and analyze the forces acting on an object or a system. It is a visual representation of the object or system in question, with all external forces acting on it represented by vectors.

In a free body diagram, the object is shown as a simple shape, such as a dot, a square, or a circle, with arrows representing the forces acting on it. The direction of the arrows indicates the direction of the force, while the length of the arrow represents the magnitude of the force. The forces are labeled according to their type, such as weight, tension, friction, or normal force, and the diagram may also include other information, such as the dimensions of the object or system and any relevant angles or distances.

Free body diagrams are a powerful tool for understanding the forces acting on an object or system, and they are often used to solve problems related to equilibrium, motion, and energy. By drawing a free body diagram, one can determine the net force acting on the object or system, which can be used to calculate its acceleration, velocity, or position. Free body diagrams are also useful for identifying and analyzing the individual forces acting on an object, which can help engineers and physicists design and optimize structures, machines, and other devices.

Overall, a free body diagram provides a simple and intuitive way to visualize and analyze the forces acting on an object or system, and it is an essential tool in the study of mechanics and engineering.