Calculating Moment of a Force: Confused Beginner Asks for Help

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SUMMARY

The calculation of the moment of a force involves selecting the appropriate component—horizontal or vertical—based on the radius used. The formula M=F*d applies, where the component chosen must be perpendicular to the radius. For instance, if the radius extends to the 3 o'clock position, the vertical component generates torque, while the horizontal component is relevant when the radius points to the 6 o'clock position. The radius determines which component to utilize in the calculation.

PREREQUISITES
  • Understanding of basic physics concepts, particularly torque and moments
  • Familiarity with the formula M=F*d for calculating moments
  • Knowledge of perpendicularity in geometric contexts
  • Basic navigation skills for online educational resources
NEXT STEPS
  • Explore the concept of torque in-depth through resources like HyperPhysics
  • Learn about the application of moments in different physical scenarios
  • Study the relationship between force components and their impact on torque
  • Investigate additional online platforms that offer physics tutorials and explanations
USEFUL FOR

Students, educators, and anyone interested in understanding the principles of torque and moments in physics.

shaan_aragorn
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This question may sound silly to all of you brainy guys out there but I am one silly guy.
While calculating the moment of a force how do you choose which component (horizontal or vertical) to choose? I know that M=F*d. Its confusing when authors sometimes use the veritical and sometimes the other component.
Also please let me know if there is a nice little websites where such basic conepts could be found.
 
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The component you need is whatever component is perpendicular to the radius you are using as the distance. For example, imagine a circle. If you draw a radius from the center to the 3 o'clock position, then the vertical component will produce the torque. If you draw a radius from the center to the 6 o'clock position, then it would be the horizontal component. The radius dictates the component used.

When in doubt, hyper physics is a great website:
http://hyperphysics.phy-astr.gsu.edu/hbase/hframe.html
 
inother words you would use the distance that is shortest that makes a rright angle from the line of action to the position of application
 

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