(A particle that vibrates under the influence of a simple harmonic motion) If the total energy...

(A particle that vibrates under the influence of a simple harmonic motion) If the total energy is greater than the effort - solve the Schrödinger equation using polynomial Hermit

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genius_generous answered 2 years ago

An object attached to a spring vibrates with simple harmonic motion as described by the figure...

An object attached to a spring vibrates with simple harmonic motion as described by the figure below. (a) For this motion, find the amplitude. (b) For this motion, find the period. (c) For this motion, find the angular frequency. (d) For this motion, find the maximum speed (e) For this motion, find the maximum acceleration. (f) For this motion, find an equation for its position x in terms of a sine function.

particle is in simple harmonic motion along the x axis. The amplitude of the motion is...

particle is in simple harmonic motion along the x axis. The amplitude of the motion is xm. When it is at x = x1, its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0) is U = 3 J. When it is at x = −1 2x1, the kinetic and potential energies are: A. K = 5 J and U = 3J B. K = 5 J and U...

A particle executes simple harmonic motion, such that at a given time, it is at ?A/3...

A particle executes simple harmonic motion, such that at a given time, it is at ?A/3 moving in towards equilibrium. 0.7seconds later, it is at x=0.9A moving towards equilibrium. Find the angular frequency of the particle, if it passes through equilibrium once between the two occurrences. Repeat the above, with the particle passing through equilibrium 5times between the two occurrences.

1. In a simple harmonic motion, the kinetic energy is equal to the elastic potential energy...

1. In a simple harmonic motion, the kinetic energy is equal to the elastic potential energy in the position: a) X = A / 2 b) X = A c) X = A / (2) 1/2 d) X = (2 ) 1/2 A e) X = 0 1.2 The displacement of a particle in a simple harmonic motion is given by: X = 10 cos (20t - π / 3), which of the following. expressions is equivalent: a) X =...

1. a 10 g particle is undergoing simple harmonic motion with an amplitude of 2.0X10^-3 m...

1. a 10 g particle is undergoing simple harmonic motion with an amplitude of 2.0X10^-3 m and a maximum acceleration of magnitude 8.0X10^3 m/s^2. The phase constant is

Write a discussion and conclusion for simple harmonic motion.

A particle with mass m begins its motion from the state of rest under the influence...

A particle with mass m begins its motion from the state of rest under the influence of an oscillating force F(t) = F0 sin(γ t). Find the particle’s velocity and the distance traveled at time t1, when the force reaches its first maximum, and at time t2, when the force becomes equal to zero.

a 1.25kg mass on a pring vibrates as simple harmonic oscillator with time dependant position y,...

a 1.25kg mass on a pring vibrates as simple harmonic oscillator with time dependant position y, y(t)=(0.250m)vos(12.1t) find: a. amplitude im meter b.frequency of oscillation in hertz c.period of osillation in s d.position at t=1.4s e.velocity at t=1.4s f.spring constant k

Which of the following statements are correct? A. All oscillatory motion is Simple Harmonic Motion. B....

Which of the following statements are correct? A. All oscillatory motion is Simple Harmonic Motion. B. Simple Harmonic motion is a special case of oscillatory motion. C. Oscillatory motion is a special case of Simple Harmonic motion. D. Oscillatory motion cannot be Simple Harmonic motion Which of the following statements is correct? A. In simple harmonic motion, kinetic energy is constant. B. In simple harmonic motion, potential energy is constant. C. In simple harmonic motion, the sum of kinetic and...

An object is excuting simple harmonic motion. Which is a true statement regarding its motion? a....

An object is excuting simple harmonic motion. Which is a true statement regarding its motion? a. its velocity is never zero b. its acceleration is never zero c. its velocity and accelertation are simultaneously zero d. its velocity is zero when tis acceleration is a maximum e. its acceleration is maximum when its velocity is maximum

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