Understanding Classical Mechanics: Acceleration

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SUMMARY

The discussion centers on the foundational principles of classical mechanics, specifically regarding the determination of acceleration using coordinates and velocities. It is established that acceleration can be derived from the equations of motion, given the generalized force depends solely on the coordinates (q) and velocities (q̇). This principle is crucial for understanding motion in classical mechanics, as articulated in the Landau-Lifchitz texts.

PREREQUISITES
  • Understanding of classical mechanics principles
  • Familiarity with generalized coordinates and velocities
  • Knowledge of equations of motion
  • Concept of generalized forces in physics
NEXT STEPS
  • Study the derivation of acceleration from the equations of motion
  • Explore the role of generalized forces in classical mechanics
  • Learn about the implications of coordinate systems in motion analysis
  • Investigate advanced texts such as "Mechanics" by Landau and Lifchitz for deeper insights
USEFUL FOR

Students of physics, educators teaching classical mechanics, and anyone seeking to deepen their understanding of motion dynamics and acceleration principles.

Physicsphysics
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I'm reading once again through Landau-Lifchitz and I am stuck on the first page! I can't wrap my head around why we only need to define the coordinates and velocities to determine the acceleration? Surely if we only know those two in a single point in time, that's not enough to determine an acceleration? What am I missing here? Thanks!
 
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From the equations of motion with given ##q## and ##\dot{q}## you get ##\ddot{q}##. Of course you need the assumption that the (generalized) force depends only on ##q## and ##\dot{q}## as usual in classical mechanics.
 
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