Show detailed work please A simple harmonic oscillator has angular frequancy omega and ampiltude A ,what...
Show detailed work please A simple harmonic oscillator has angular frequancy omega and ampiltude A ,what is the magnitude of the displacement and velocity when the elastic potentiel energy is half of the total energy? How many timed this occur in one cycle? What is the time between such event
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Show detailed work please A simple harmonic oscillator has
angular frequancy omega and ampiltude A ,what...
Equations of Simple Harmonic Motion (basic) PLEASE! show work and only answer if you know how...
Equations of Simple Harmonic Motion (basic)
PLEASE! show work and only answer if you know how to do it.
People keeps giving me the wrong answer.
Analyzing Newton's 2^nd Law for a mass spring system, we found a_x = -k/m X. Comparing this to the x-component of uniform circular motion, we found as a possible solution for the above equation: x = Acos(omega t) v_x = - omega Asin(omega t) a_x = - omega^2 Acos(omega t) with omega = square...
A simple harmonic oscillator at the position x=0 generates a wave on a string. The oscillator...
A simple harmonic oscillator at the position x=0 generates a
wave on a string. The oscillator moves up and down at a frequency
of 40.0 Hz and with an amplitude of 3.00 cm. At time t =
0, the oscillator is passing through the origin and moving down.
The string has a linear mass density of 50.0 g/m and is stretched
with a tension of 5.00 N.
A simple harmonic oscillator at the position x = 0 generates a wave...
can someone please help me answer these questions? A simple harmonic oscillator consists of a 10...
can someone please help me answer these questions?
A simple harmonic oscillator consists of a 10 kg mass attached to a spring with a spring constant of 120 N/m. The mass is displaced 20.37 m from the equilibrium position, held motionless, and then released. (a) Calculate the angular frequency and the period. For radians, enterrad" as the unit. For a full list of accepted units, use the "Units Help" link below. Number Units T Number Units (b) Calculate the maximum...
[20 points] A particle in the simple harmonic oscillator potential with angular frequency a is initially...
[20 points] A particle in the simple harmonic oscillator potential with angular frequency a is initially in the ground state: c,y, (x) =Yo(x Att = 0 , the angular frequency of the oscillator suddenly doubles: a} → a½-2.4 The initial wave function can be written in terms of the modified potential (denoted with a tilde:~: Recall that the general form of the first few stationary states for the harmonic oscillator are given on page 56 of your text. a. What...
-The velocity of a simple harmonic oscillator is given by v = -7.93sin(29.4t) (mks units) What...
-The velocity of a simple harmonic oscillator is given by v = -7.93sin(29.4t) (mks units) What is its angular frequency? -What is the amplitude of the motion in Problem 1 in meters to two decimal places? -To the nearest hundredth of a meter where is the mass in Problem 1 at the time t = 22.64 seconds? -If the mass in Problem 3 is 0.34 kg, what is the spring's potential energy to the nearest tenth of a joule? -What...
Simple Hanging Harmonic Oscillator Developed by K Roos In this set of exercises the student builds a computational mode...
Simple Hanging Harmonic Oscillator Developed by K Roos In this set of exercises the student builds a computational model of a hanging mass-spring system that is constrained to move in 1D, using the simple Euler and the Euler-Cromer numerical schemes. The student is guided to discover, by using the model to produce graphs of the position, velocity and energy of the mass as a function of time, that the Euler algorithm does not conserve energy, and that for this simple...
Simple Harmonic Motion Consider a harmonic oscillator with period 0.13 s. If the speed at the...
Simple Harmonic Motion Consider a harmonic oscillator with period 0.13 s. If the speed at the equlibrium position is 2.10 m/s, what is the speed of a mass at a point which is displaced by 1.5 cm? (Work this out using conservation of energy). Please make sure to draw an energy bar chart for this. Find the answer and show the steps taken to get to the answer. Evaluate the answer and explain why it makes sense.
The figure below shows the displacement of a simple harmonic oscillator as a function of time. у в (a) At which point(s...
The figure below shows the displacement of a simple harmonic oscillator as a function of time. у в (a) At which point(s) is the velocity zero? (Select all that apply.) Xп o o o » (b) At which point(s) is the magnitude of the force a maximum? (Select all that apply.) OOOOO
1. The solution for a SHO (simple harmonic oscillator) is given as: x(t) = 0.1 sin(3t...
1. The solution for a SHO (simple harmonic oscillator) is given as: x(t) = 0.1 sin(3t − π/6) meters. Include appropriate units in your answers. (a) What is the amplitude of oscillation? (b) What is the initial position of the oscillator? (c) What is the maximum velocity of the oscillator and at what value of x does it occur? (d) What is the maximum acceleration of the oscillator and where does it occur? (e) What are the period and frequency...
A) The velocity of a simple harmonic oscillator is given by v = -7.35sin(26.8t) (mks units)...
A) The velocity of a simple harmonic oscillator is given by v = -7.35sin(26.8t) (mks units) What is its angular frequency? B) What is the amplitude of the motion in Problem 1 in meters to two decimal places? C) To the nearest hundredth of a meter where is the mass in Problem 1 at the time t = 44.03 seconds? D) If the mass in Problem C is 0.75 kg, what is the spring's potential energy to the nearest tenth...
Equations of Simple Harmonic Motion (basic)
PLEASE! show work and only answer if you know how to do it.
People keeps giving me the wrong answer.
Analyzing Newton's 2^nd Law for a mass spring system, we found a_x = -k/m X. Comparing this to the x-component of uniform circular motion, we found as a possible solution for the above equation: x = Acos(omega t) v_x = - omega Asin(omega t) a_x = - omega^2 Acos(omega t) with omega = square...
A simple harmonic oscillator at the position x=0 generates a
wave on a string. The oscillator moves up and down at a frequency
of 40.0 Hz and with an amplitude of 3.00 cm. At time t =
0, the oscillator is passing through the origin and moving down.
The string has a linear mass density of 50.0 g/m and is stretched
with a tension of 5.00 N.
A simple harmonic oscillator at the position x = 0 generates a wave...
can someone please help me answer these questions?
A simple harmonic oscillator consists of a 10 kg mass attached to a spring with a spring constant of 120 N/m. The mass is displaced 20.37 m from the equilibrium position, held motionless, and then released. (a) Calculate the angular frequency and the period. For radians, enterrad" as the unit. For a full list of accepted units, use the "Units Help" link below. Number Units T Number Units (b) Calculate the maximum...
[20 points] A particle in the simple harmonic oscillator potential with angular frequency a is initially in the ground state: c,y, (x) =Yo(x Att = 0 , the angular frequency of the oscillator suddenly doubles: a} → a½-2.4 The initial wave function can be written in terms of the modified potential (denoted with a tilde:~: Recall that the general form of the first few stationary states for the harmonic oscillator are given on page 56 of your text. a. What...
Simple Hanging Harmonic Oscillator Developed by K Roos In this set of exercises the student builds a computational model of a hanging mass-spring system that is constrained to move in 1D, using the simple Euler and the Euler-Cromer numerical schemes. The student is guided to discover, by using the model to produce graphs of the position, velocity and energy of the mass as a function of time, that the Euler algorithm does not conserve energy, and that for this simple...
The figure below shows the displacement of a simple harmonic oscillator as a function of time. у в (a) At which point(s) is the velocity zero? (Select all that apply.) Xп o o o » (b) At which point(s) is the magnitude of the force a maximum? (Select all that apply.) OOOOO
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