Does Resultant Force Directly Influence Direction in Linear Motion?

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Homework Help Overview

The discussion revolves around the relationship between resultant force and direction in linear motion, with references to concepts from circular motion. Participants explore how forces interact in a scenario involving a lawn mower being pushed horizontally.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants question whether a body moves in the direction of the resultant force and discuss the implications of forces acting on the lawn mower, particularly regarding vertical forces and the normal force.

Discussion Status

The discussion is ongoing, with participants clarifying their understanding of the concepts involved. Some guidance on the relationship between normal force and weight is provided, but there is no explicit consensus on the initial question regarding direction and resultant force.

Contextual Notes

Participants are navigating assumptions about force interactions and the definitions of motion direction, with some uncertainty about the terminology used in the original question.

Miike012
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For linear motion.. is it true that a body will point in the direction of the resultant force?

This seems true to me because the I know that in circular motion, the object will fly from the point of tangency when released.
And the point of tangency for linear motion is in the direction of the motion...

Is this correct?

2nd question:
I added a picture of a lawn mower being pushed by force (P) and moving horizontally.
How would the vertical forces zero out, would this mean that the normal force is not equal to the weight force?
 

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The normal force simply increases due to Py--this makes sense by Newton's Third Law. If I push down hard on a table, there's an equal and opposite force (i.e. it "pushes" up) (unless I push so hard that it breaks). So from your equation, we have N = Py + w.

I don't really know what you mean by a body "pointing". Keep in mind though, for circular motion, the acceleration points towards the center of the circle.
 
I meant to say.. the body's displacement is in the direction of the resultant force...

Thus is moves in the direction of Px
 
Is my question still not making sense?
 
The acceleration is always in the direction of the resultant force. When a car brakes to a stop, what is the direction of the acceleration? The resultant force? The displacement?
 

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