3. Consider two coupled oscillators whose equations of motion are given by-3z1 +z,dt?d²r2= I - 3r2,(a) Calculate the characteristic determinant for this system.Note: The characteristic determinant is det M-1, where M is the matrix for which x+Mx = 0and 2 is the normal mode frequency.%3D(b) Compute the frequencies of the normal modes of oscillation.(c) Solve the cquations of motion subject to the initial conditions r (0) = 0.02 m, r>(0)(0) - -0.1 ms and (0)(d) Show that the normal coordinates for the system are given by yh = + 2 and y2 = -2.Use the initial conditions from (c) to find the solution in terms of the normal coordinates.= 0.02 m.0.1 ms

Since we only answer up to 3 sub-parts, we’ll answer the first 3. Please resubmit the question and…

Answered: 3. Consider two coupled oscillators…

Similar questions

Question 2 ) = – 5 and y (0) = 5. An object is in simple harmonic motion with frequency 6. Suppose y(0) Find its displacement for t> 0. Also, find the amplitude of the oscillation and the sine and cosine of the initial phase angle o. Displacement: y(t) Amplitude sin(ø) cos(ø) =
9. Solve the coupled oscillator system such that m₁ = m² = 1, k₁ = k3 = 9,k₂ = 8. Assume the first mass is pushed 2 units to the right of equilibrium and the 2nd 2 units to the left of equilibrium, with zero initial velocities. Describe the behavior of the motions of the masses at each of the nodes.
The period of motion of an object-spring system is T = 0.642 s when an object of mass m= 266 g is attached to the spring. (a) Find the frequency of motion in hertz. (b) Find the force constant of the spring. (c) If the total energy of the oscillating motion is 0.176 J, find the amplitude of the oscillations. please show every step so I can learn how to do it. Thank you!
4. In the figure below, the pendulum consists of a uniform disk with radius r = 31 cm and mass 508 g attached to a uniform rod with length L = 447 mm and mass 282 g. Calculate the period (in seconds) of oscillation. Final answer in four decimal places. Hint: Use parallel-axis theorem, and the corresponding moment of inertia. Also, be wary of the conversions here.
A spring with a spring constant of 200 N/m with a 5 kg mass attached to it has the following position function. ?(?) = 5 cos (0.3 ?) (The 5 has units of m and the time is in seconds.) What is the frequency of oscillation for the mass? What is the period of oscillation?
Please help solve for v in (m/s)
Please help
The position of a 48 g oscillating mass is given by x(t)=(2.0cm)cos10t, where t is in seconds. Determine the amplitude. (Express your answer in centimeters). Determine the period. (Express your answer in seconds). Determine the spring constant. (Express your answer in newtons per meter). Determine the maximum speed.(Express your answer in meters per second). Determine the total energy. (Express your answer in joules). Determine the velocity at t = 0.40 s. (Express your answer in meters per second).