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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 on the right shows the kinetic energy K of a simple harmonic oscillator versus...
The figure on the right shows the kinetic energy K of a simple harmonic oscillator versus its position x. (a) What is the spring constant? (b) Suppose the system consists of a block of mass 0.50 kg attached to a spring. Sketch displacement x as a function of time t. at -12 -8 -4 0 4 8 12
Problem 3 A damped harmonic oscillator is described by the displacement as a function of time,...
Problem 3 A damped harmonic oscillator is described by the displacement as a function of time, An observer finds that every time the mass reaches its maximum (positive) displacement, that displacement is 10.0% smaller than the previous maximum positive displacement. Calculate the ratio of the period T of the oscillator with damping, to the period To of the same oscillator without damping.
1. The amplitude of a simple harmonic oscillator is doubled. Which of the following remain the...
1. The amplitude of a simple harmonic oscillator is doubled. Which of the following remain the same? O O O O a The maximum velocity b.The maximum acceleration. c. The frequency. d. All of them remain the same. O eNone of them remain the same 2. Suppose a special spring is made that has an unusual force law. The force law of ths spng is F--kx3. The motion of a mass attached to this spring will be O a simple...
At a given time a simple harmonic oscillator has a displacement of 0.50 m to the...
At a given time a simple harmonic oscillator has a displacement of 0.50 m to the right of its equilibrium position and a velocity of 2.00 tothe right and an acceleration of 8.00 to the left. How much farther will the SHO move to the right from its current Select the correct answer O 0.108 m to the right of the current position O 0.301 m to the right of the current position O 0.271 m to the right of...
A simple harmonic oscillator consists of a block attached to a spring with k -200 N/m....
A simple harmonic oscillator consists of a block attached to a spring with k -200 N/m. The block slides on a frictionless surface, with equilibrium point x 0 and amplitude 0.20 m. A graph of the block's velocity v as a function of time t is shown in figure below. The horizontal scale is set by's 0.20s. What are (a) the period of the SHM, (b) the block's mass, (c) its displacement att- 0, (d) its acceleration att-0.10 s, and...
(6) O Y 25 cm FIGURE 4 FIGURE 4 shows a bead executing a simple harmonic...
(6) O Y 25 cm FIGURE 4 FIGURE 4 shows a bead executing a simple harmonic motion with a period of 1.8 s, along a straight line between points, X and Y which are 25 cm apart. Point O is at midpoint between X and (i) Write an equation for the displacement of the bead. (ii) Calculate the magnitude of acceleration of the bead point P. (b) A 25 kg block connected to one end of a string is displaced...
The position of an OAS (Simple Harmonic Oscillator) as a function of time is given by...
The position of an OAS (Simple Harmonic Oscillator) as a function of time is given by x = 3.8m cos (1.25t + 0.52) where t is in seconds and x is in meters Find a) Period (s) b) Acceleration (m / s^2) at t = 2.0s
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...
Asimple harmonic oscillator at the point generates a wave on a rope. The oscillator operates at...
Asimple harmonic oscillator at the point generates a wave on a rope. The oscillator operates at a frequency of 40.0 Hz and with an amplitude of 3.00 cm. The rope has a linear mass density of and is stretched with a tension of 5.00 N. (a) Determine the speed of the wave. (b) Find the wavelength. (c) Write the wave function for the wave. Assume that the oscillator has its maximum upward displacement at time t=0. (d) Find the maximum...
An oscillator is drawn out to an initial displacement and reaches the first equilibrium point in...
An oscillator is drawn out to an initial displacement and reaches the first equilibrium point in 43 s. A) What is the period of the oscillator? B) If the velocity is 78 m/s, what is the initial displacement of the oscillator? C) If the restoring force that started the motion is 20 N, what is the spring constant of the oscillator? D) What is the maximum velocity? E) What is the maximum acceleration?
The figure on the right shows the kinetic energy K of a simple harmonic oscillator versus its position x. (a) What is the spring constant? (b) Suppose the system consists of a block of mass 0.50 kg attached to a spring. Sketch displacement x as a function of time t. at -12 -8 -4 0 4 8 12
Problem 3 A damped harmonic oscillator is described by the displacement as a function of time, An observer finds that every time the mass reaches its maximum (positive) displacement, that displacement is 10.0% smaller than the previous maximum positive displacement. Calculate the ratio of the period T of the oscillator with damping, to the period To of the same oscillator without damping.
1. The amplitude of a simple harmonic oscillator is doubled. Which of the following remain the same? O O O O a The maximum velocity b.The maximum acceleration. c. The frequency. d. All of them remain the same. O eNone of them remain the same 2. Suppose a special spring is made that has an unusual force law. The force law of ths spng is F--kx3. The motion of a mass attached to this spring will be O a simple...
At a given time a simple harmonic oscillator has a displacement of 0.50 m to the right of its equilibrium position and a velocity of 2.00 tothe right and an acceleration of 8.00 to the left. How much farther will the SHO move to the right from its current Select the correct answer O 0.108 m to the right of the current position O 0.301 m to the right of the current position O 0.271 m to the right of...
A simple harmonic oscillator consists of a block attached to a spring with k -200 N/m. The block slides on a frictionless surface, with equilibrium point x 0 and amplitude 0.20 m. A graph of the block's velocity v as a function of time t is shown in figure below. The horizontal scale is set by's 0.20s. What are (a) the period of the SHM, (b) the block's mass, (c) its displacement att- 0, (d) its acceleration att-0.10 s, and...
(6) O Y 25 cm FIGURE 4 FIGURE 4 shows a bead executing a simple harmonic motion with a period of 1.8 s, along a straight line between points, X and Y which are 25 cm apart. Point O is at midpoint between X and (i) Write an equation for the displacement of the bead. (ii) Calculate the magnitude of acceleration of the bead point P. (b) A 25 kg block connected to one end of a string is displaced...
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...
An oscillator is drawn out to an initial displacement and reaches the first equilibrium point in 43 s. A) What is the period of the oscillator? B) If the velocity is 78 m/s, what is the initial displacement of the oscillator? C) If the restoring force that started the motion is 20 N, what is the spring constant of the oscillator? D) What is the maximum velocity? E) What is the maximum acceleration?
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