Learning Path
Question & Answer1
Understand Question2
Review Options3
Learn Explanation4
Explore TopicChoose the Best Answer
A
Principle of Least Action
B
Newton's Third Law
C
Conservation of Momentum
D
Euler-Lagrange Equations
Understanding the Answer
Let's break down why this is correct
Answer
The principle that best explains the path a particle follows when only conservative forces act is the principle of least (or stationary) action, which states that the actual trajectory makes the action integral stationary. Using this principle, the Euler–Lagrange equations give Newton’s second law as a consequence, so the motion follows from the geometry of the action. Because the forces are conservative, the potential energy is a function of position only, and the action integral contains kinetic minus potential energy. For example, a particle in a gravitational field follows a parabolic arc because that path makes the action integral minimal among all possible curves. Thus the principle of least action provides the most general and powerful explanation of the trajectory under conservative forces.
Detailed Explanation
The Principle of Least Action says a particle follows the path that makes the action smallest. Other options are incorrect because Newton's Third Law says forces come in equal and opposite pairs; Conservation of Momentum means total momentum stays the same in an isolated system.
Key Concepts
Principle of Least Action
Newton's Laws
Conservative Forces
Topic
Classical Mechanics Principles
Difficulty
medium level question
Cognitive Level
understand
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Question 3Which of the following statements correctly apply the principles of classical mechanics? Select all that apply.
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