Consider a system with a vibrating base. The spring constant is given as K = 10.kN/m...

For a vibrating system, m = 10 kg, k = 2500 N/m, and c = 45...

For a vibrating system, m = 10 kg, k = 2500 N/m, and c = 45 N*s/m. A harmonic force of amplitude 180 N and frequency 3.5 Hz acts on the mass. If the initial displacement and velocity of the mass are 15 mm and 5 m/s, respectively, find the complete solution representing the motion of the mass.

Consider a mass and spring system with a mass m = 1 kg, spring constant k...

Consider a mass and spring system with a mass m = 1 kg, spring constant k = 5 kg=s^2 , and damping constant b = 2 kg/s set up and the general solution of the system. Express the final answer in terms of cos and sin

For what value of m will resonance occur for a simple spring-mass system with spring constant...

For what value of m will resonance occur for a simple spring-mass system with spring constant k at 3x105 N/m under a harmonic force excitation f(t) = 200sin(50t)? m = _______ kg

A 1-kg object is attached to a spring of force constant k = 0.5 kN/m. The...

A 1-kg object is attached to a spring of force constant k = 0.5 kN/m. The spring is stretched 10 cm from equilibrium and released. What is the kinetic energy of the mass–spring system when the mass is 5.0 cm from its equilibrium position? Group of answer choices 2.95 J 2.32 J 3.48 J 2.71 J 1.88 J

A mass m is attached to a spring with stiffness k=25 N/m. The mass is stretched...

A mass m is attached to a spring with stiffness k=25 N/m. The mass is stretched 1 m to the left of the equilibrium point then released with initial velocity 0. Assume that m = 3 kg, the damping force is negligible, and there is no external force. Find the position of the mass at any time along with the frequency, amplitude, and phase angle of the motion. Suppose that the spring is immersed in a fluid with damping constant...

1. Calculate the spring constant ,k, for a spring, if the spring stretches by 0.2 m...

1. Calculate the spring constant ,k, for a spring, if the spring stretches by 0.2 m as a result of an applied force of 200N. 2. A 20 kg mass is attached to a spring with spring constant, K=100 N/m. The spring/mass system is stretched by 5cm, and then released from rest and allowed to oscillate back and forth A.) What is the amplitude of vibration in this system? B.) Calculate the acceleration of the mass at X=0. 3. In...

1. Consider a damped mass-spring system with m=6 and k=10 being subjected to harmonic forcing. Find...

1. Consider a damped mass-spring system with m=6 and k=10 being subjected to harmonic forcing. Find the value of the damping parameter b such that the driving frequency that maximizes the amplitude of the response is exactly half of the natural (undamped) frequency of the system.

Using the Newton’s second law model for a vibrating mass-spring system with damping and no forcing,...

Using the Newton’s second law model for a vibrating mass-spring system with damping and no forcing, 〖my〗^''+by^'+ky=0, find the equation of motion if m=10 kg, b=40 kg/sec, k=240 kg/sec2, y(0)=1.0, and y^' (0)=0.0 m/sec.

8. A 0.40-kg mass is attached to a spring with a force constant of k =...

8. A 0.40-kg mass is attached to a spring with a force constant of k = 387 N/m, and the mass–spring system is set into oscillation with an amplitude of A = 3.7 cm. Determine the following. (a) mechanical energy of the system J (b) maximum speed of the oscillating mass m/s (c) magnitude of the maximum acceleration of the oscillating mass m/s2

a 3 kg mass is attached to a spring whose constant is 147 N/m, comes to...

a 3 kg mass is attached to a spring whose constant is 147 N/m, comes to rest in the equilibrium position. Starting at  t = 0, a force equal to  f (t)  =  12e−5t cos 2t  is applied to the system. In the absence of damping, (a) find the position of the mass when  t = π. (b) what is the amplitude of vibrations after a very long time?