In the mass - viscous damper - spring system with m = 0.1 lb-s 2 /...

2. Consider a spring-mass-damper system with the equation of motion given by: ?̈+ 2?̇ + 122?...

2. Consider a spring-mass-damper system with the equation of motion given by: ?̈+ 2?̇ + 122? = 0 a) Is the system overdamped, underdamped or critically damped? Does the system oscillate? If the system oscillates, compute the frequency of the oscillations in rad/s and Hz. b) Determine the displacement response if the initial conditions are ?0 = −1 mm and ?0 = 12 mm/s

3. Consider a spring-mass-damper system with the equation of motion given by: ?̈+ 7?̇ + 10?...

3. Consider a spring-mass-damper system with the equation of motion given by: ?̈+ 7?̇ + 10? = 0 c) Is the system overdamped, underdamped or critically damped? Does the system oscillate? If the system oscillates, compute the frequency of the oscillations in rad/s and Hz. d) Determine the displacement response if the initial conditions are ?0 = 2 mm and ?0 = −7 mm/s

A block is attached to a horizontal spring with a spring constant of 5.0 kg s?...

A block is attached to a horizontal spring with a spring constant of 5.0 kg s? 2. The block is displaced 0.5m from equilibrium and released (see the figure below). The block executes simple harmonic motion with a period of 4.0 s .Assuming that the block is moving on a frictionless surface, and the spring is of negligible mass. a. Calculate the mass of the block? b. Determine the velocity of the block 1.0 seconds after it is released? The...

A horizontal spring-mass system has low friction, spring stiffness 200 N/m, and mass 0.5 kg. The...

A horizontal spring-mass system has low friction, spring stiffness 200 N/m, and mass 0.5 kg. The system is released with an initial compression of the spring of 9 cm and an initial speed of the mass of 3 m/s. (a) What is the maximum stretch during the motion? _ m (b) What is the maximum speed during the motion?   _m/s (c) Now suppose that there is energy dissipation of 0.02 J per cycle of the spring-mass system. What is the...

A small object of mass 1 kg is attached to a spring with spring constant 2...

A small object of mass 1 kg is attached to a spring with spring constant 2 N/m. This spring mass system is immersed in a viscous medium with damping constant 3 N· s/m. At time t = 0, the mass is lowered 1/2 m below its equilibrium position, and released. Show that the mass will creep back to its equilibrium position as t approaches infinity.

A massless spring of spring constant k = 4872 N/m is connected to a mass m...

A massless spring of spring constant k = 4872 N/m is connected to a mass m = 210 kg at rest on a horizontal, frictionless surface. Part (a) The mass is displaced from equilibrium by A = 0.73 m along the spring’s axis. How much potential energy, in joules, is stored in the spring as a result? Part (b) When the mass is released from rest at the displacement A= 0.73 m, how much time, in seconds, is required for...

A spring-mass system has a spring constant of 3 N/m. A mass of 2 kg is...

A spring-mass system has a spring constant of 3 N/m. A mass of 2 kg is attached to the spring, and the motion takes place in a viscous fluid that offers a resistance numerically equal to the magnitude of the instantaneous velocity. (a) If the system is driven by an external force of (12 cos 3t − 8 sin 3t) N, determine the steady-state response. (b) Find the gain function if the external force is f(t) = cos(ωt). (c) Verify...

A very large mass-spring system has stiffness 186 N/m, mass 0.33 kg, and is oriented horizontally...

A very large mass-spring system has stiffness 186 N/m, mass 0.33 kg, and is oriented horizontally atop a level table. The system released with initial compression of of 5 cm and initial speed 2 m/s. a What is the maximum stretch of the spring during the motion in m? b What is the maximum speed that the mass obtains in m/s? c If the friction force is on average Fu = 0.065 N, what is the change in energy per...

A m=5 kg mass hangs on a spring that is stretched 2 cm under the influence...

A m=5 kg mass hangs on a spring that is stretched 2 cm under the influence of the weight of this mass. The mass is attached to a damper with a damping constant of c=200 Ns/m. A periodic external force of F(t) = 200cos(ωt) is now applied on the mass that was initially in static equilibrium. Neglecting any friction, obtain a relation for the displacement of the mass x(t) as a function of ω and t. Also, determine the value...

A mass weighing 4 pounds is attached to a spring whose constant is 2 lb/ft. The...

A mass weighing 4 pounds is attached to a spring whose constant is 2 lb/ft. The medium offers a damping force that is numerically equal to the instantaneous velocity. The mass is initially released from a point 1 foot above the equilibrium position with a downward velocity of 12 ft/s. Determine the time at which the mass passes through the equilibrium position. (Use g = 32 ft/s2 for the acceleration due to gravity.) s Find the time after the mass...