Directional Forces: Valid Concepts in Physics?

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SUMMARY

The discussion confirms that "direction of force" is a valid concept in mechanical physics, as established by Newton's second law, which relates applied force to momentum, emphasizing the directional nature of both. The term "plane of application" is less commonly recognized, but it suggests a relationship to stress rather than force. The conversation highlights that while the direction of force is fundamental, the plane of application may not always be perpendicular to the force direction, indicating a need for clear definitions in educational contexts.

PREREQUISITES
  • Understanding of Newton's second law of motion
  • Familiarity with vector mathematics in physics
  • Basic knowledge of stress and strain concepts in mechanics
  • Awareness of momentum and its directional properties
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  • Research the implications of Newton's second law in mechanical systems
  • Study vector addition and its applications in physics
  • Explore the relationship between stress and force in material science
  • Investigate the definitions and applications of "plane of application" in engineering contexts
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Students, educators, and professionals in physics and engineering who are looking to deepen their understanding of force concepts and their applications in mechanical systems.

DaveC426913
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Are "direction of force" and "plane of application" valid concepts in mechanical physics, or are these terms I've made up?

Just from the terms alone I'd assume that plane of application is perpendicular to direction of force. But I wonder if that's always the case.
 
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… force is a vector …

Hi Dave! :smile:

"direction of force" is certainly essential in mechanical physics - Newton's second law (which is about as fundamental as you can get!) says applied force = (rate of change of) momentum, and momentum certainly has a direction.

The direction is as much an essential part of any force as it is of any velocity, or of any momentum or acceleration! :smile:

In mathematical terms, force is a vector (and so, like velocity, momentum, or acceleration, obeys the vector "law of addition").

"plane of application" …? … I haven't come across. :confused:
 
DaveC426913 said:
Are "direction of force" and "plane of application" valid concepts in mechanical physics, or are these terms I've made up?

Just from the terms alone I'd assume that plane of application is perpendicular to direction of force. But I wonder if that's always the case.

Sounds about right to me. You can use whatever definition you want as long as you state what you mean by it.
 
Well, this is going into a school science book, so I want to ensure I use legitimate concepts.
 
If you want to be super picky about it, forces have a magnitude and a direction.

They are distributed on a differential area normally and tangentially. As the differential area collapses the differential force acts on a point.

A plane of application would imply a stress, not a force.
 
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