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When a particle of mass m moves on the x-axis in a potential of the form V(x) = kx2 it performs simple harmonic motion. Thecorresponding time period is proportional to as can be seen easily using dimensional analysis. However, the motion of a particle can be periodic even when its potential energy increases on both sides of x = 0 in a way different from kx2 and its total energy is such that the particle does not escape to infinity. Consider a particle of mass m moving on the x-axis. Its potential energy is V(x) = αx4 (α > 0) for |x| near the origin and becomes a constant equal to V0 for |x| > X0 (see figure).Q.For periodic motion of small amplitude A, the time period T of this particle is proportional toa)b)c)d)Correct answer is option 'B'. Can you explain this answer? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared
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the JEE exam syllabus. Information about When a particle of mass m moves on the x-axis in a potential of the form V(x) = kx2 it performs simple harmonic motion. Thecorresponding time period is proportional to as can be seen easily using dimensional analysis. However, the motion of a particle can be periodic even when its potential energy increases on both sides of x = 0 in a way different from kx2 and its total energy is such that the particle does not escape to infinity. Consider a particle of mass m moving on the x-axis. Its potential energy is V(x) = αx4 (α > 0) for |x| near the origin and becomes a constant equal to V0 for |x| > X0 (see figure).Q.For periodic motion of small amplitude A, the time period T of this particle is proportional toa)b)c)d)Correct answer is option 'B'. Can you explain this answer? covers all topics & solutions for JEE 2024 Exam.
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Solutions for When a particle of mass m moves on the x-axis in a potential of the form V(x) = kx2 it performs simple harmonic motion. Thecorresponding time period is proportional to as can be seen easily using dimensional analysis. However, the motion of a particle can be periodic even when its potential energy increases on both sides of x = 0 in a way different from kx2 and its total energy is such that the particle does not escape to infinity. Consider a particle of mass m moving on the x-axis. Its potential energy is V(x) = αx4 (α > 0) for |x| near the origin and becomes a constant equal to V0 for |x| > X0 (see figure).Q.For periodic motion of small amplitude A, the time period T of this particle is proportional toa)b)c)d)Correct answer is option 'B'. Can you explain this answer? in English & in Hindi are available as part of our courses for JEE.
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Here you can find the meaning of When a particle of mass m moves on the x-axis in a potential of the form V(x) = kx2 it performs simple harmonic motion. Thecorresponding time period is proportional to as can be seen easily using dimensional analysis. However, the motion of a particle can be periodic even when its potential energy increases on both sides of x = 0 in a way different from kx2 and its total energy is such that the particle does not escape to infinity. Consider a particle of mass m moving on the x-axis. Its potential energy is V(x) = αx4 (α > 0) for |x| near the origin and becomes a constant equal to V0 for |x| > X0 (see figure).Q.For periodic motion of small amplitude A, the time period T of this particle is proportional toa)b)c)d)Correct answer is option 'B'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
When a particle of mass m moves on the x-axis in a potential of the form V(x) = kx2 it performs simple harmonic motion. Thecorresponding time period is proportional to as can be seen easily using dimensional analysis. However, the motion of a particle can be periodic even when its potential energy increases on both sides of x = 0 in a way different from kx2 and its total energy is such that the particle does not escape to infinity. Consider a particle of mass m moving on the x-axis. Its potential energy is V(x) = αx4 (α > 0) for |x| near the origin and becomes a constant equal to V0 for |x| > X0 (see figure).Q.For periodic motion of small amplitude A, the time period T of this particle is proportional toa)b)c)d)Correct answer is option 'B'. Can you explain this answer?, a detailed solution for When a particle of mass m moves on the x-axis in a potential of the form V(x) = kx2 it performs simple harmonic motion. Thecorresponding time period is proportional to as can be seen easily using dimensional analysis. However, the motion of a particle can be periodic even when its potential energy increases on both sides of x = 0 in a way different from kx2 and its total energy is such that the particle does not escape to infinity. Consider a particle of mass m moving on the x-axis. Its potential energy is V(x) = αx4 (α > 0) for |x| near the origin and becomes a constant equal to V0 for |x| > X0 (see figure).Q.For periodic motion of small amplitude A, the time period T of this particle is proportional toa)b)c)d)Correct answer is option 'B'. Can you explain this answer? has been provided alongside types of When a particle of mass m moves on the x-axis in a potential of the form V(x) = kx2 it performs simple harmonic motion. Thecorresponding time period is proportional to as can be seen easily using dimensional analysis. However, the motion of a particle can be periodic even when its potential energy increases on both sides of x = 0 in a way different from kx2 and its total energy is such that the particle does not escape to infinity. Consider a particle of mass m moving on the x-axis. Its potential energy is V(x) = αx4 (α > 0) for |x| near the origin and becomes a constant equal to V0 for |x| > X0 (see figure).Q.For periodic motion of small amplitude A, the time period T of this particle is proportional toa)b)c)d)Correct answer is option 'B'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice When a particle of mass m moves on the x-axis in a potential of the form V(x) = kx2 it performs simple harmonic motion. Thecorresponding time period is proportional to as can be seen easily using dimensional analysis. However, the motion of a particle can be periodic even when its potential energy increases on both sides of x = 0 in a way different from kx2 and its total energy is such that the particle does not escape to infinity. Consider a particle of mass m moving on the x-axis. Its potential energy is V(x) = αx4 (α > 0) for |x| near the origin and becomes a constant equal to V0 for |x| > X0 (see figure).Q.For periodic motion of small amplitude A, the time period T of this particle is proportional toa)b)c)d)Correct answer is option 'B'. Can you explain this answer? tests, examples and also practice JEE tests.