A spring is stretched 10 centimeters by a 5 N weight. The weight is then pulled...

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...

13.5 A spring with a spring constant of 450 N/m is stretched 20 cm from the...

13.5 A spring with a spring constant of 450 N/m is stretched 20 cm from the equilibrium position. a) What is the magnitude of the spring force at x = 20 cm? b) If a 5 kg mass is attached to the spring, what will the maximum acceleration be if the spring is released from the x = 20 cm stretched position? c) Will the acceleration be the same as the spring passes the x = 10 cm position? If...

A 6lb wieght can stretch a spring 6 inches. Suppose the weight is pulled 4 inches...

A 6lb wieght can stretch a spring 6 inches. Suppose the weight is pulled 4 inches past the equilibrium point and released from rest. The initial equation is y(t)=1/3*cos(8t)+0*sin(8t) Suppose that a damping force given in pounds numerically by 1.5 times the instantaneous velocity in feet per second acts on the 6lb weight. Find the position x of the weight as a funtion of time.

A 1-kg mass is attached to a spring whose constant is 16 N/m and the entire...

A 1-kg mass is attached to a spring whose constant is 16 N/m and the entire system is then submerged in a liquid that imparts a damping force numerically equal to 10 times the instantaneous velocity. Determine the equation if (A) The weight is released 60 cm below the equilibrium position. x(t)= ; (B) The weight is released 60 cm below the equilibrium position with an upward velocity of 17 m/s. x(t)= ; Using the equation from part b, (C)...

Differential Equations A spring is stretched 6in by a mass that weighs 8 lb. The mass...

Differential Equations A spring is stretched 6in by a mass that weighs 8 lb. The mass is attached to a dashpot mechanism that has a damping constant of 0.25 lb· s/ft and is acted on by an external force of 2cos(2t) lb. (a) Find position u(t) of the mass at time t (b) Determine the steady-state response of this system Assume that g = 32 ft/s2

A 128 lb weight is attached to a spring whereupon the spring is stretched 2 ft...

A 128 lb weight is attached to a spring whereupon the spring is stretched 2 ft and allowed to come to rest. The weight is set into motion from rest by displacing the spring 6 in above its equilibrium position and also by applying an external force F(t) = 8 sin 4t. Find the subsequent motion of the weight if the surrounding medium offers a negligible resistance.

A spring with a spring constant k of 100 pounds per foot is loaded with 1-pound...

A spring with a spring constant k of 100 pounds per foot is loaded with 1-pound weight and brought to equilibrium. It is then stretched an additional 1 inch and released. Find the equation of motion, the amplitude, and the period. Neglect friction. y(t)= , where t is time and y(t) is displacement in time. Amplitude: inch(es) Period: second(s).

A 0.5-kg mass is attached to a spring with spring constant 2.5 N/m. The spring experiences...

A 0.5-kg mass is attached to a spring with spring constant 2.5 N/m. The spring experiences friction, which acts as a force opposite and proportional to the velocity, with magnitude 2 N for every m/s of velocity. The spring is stretched 1 meter and then released. (a) Find a formula for the position of the mass as a function of time. (b) How much time does it take the mass to complete one oscillation (to pass the equilibrium point, bounce...

From a vertical spring with spring constant of 110 ?/?, a 1.1−?? object is suspended. (a)...

From a vertical spring with spring constant of 110 ?/?, a 1.1−?? object is suspended. (a) Find the amount by which the spring is stretched from its unstrained length. (b) The object is pulled straight down by an additional distance of 0.20 ? and released from rest. Find the speed with which the object passes through its original position on its way up.

An object of mass one unit is hanging from a spring. Initially it is held still...

An object of mass one unit is hanging from a spring. Initially it is held still at 1/2 unit of length below its equilibrium position. It is then released. Using a restoring force given by k=16 and a damping constant c=8 find x(t), where x(t) gives the position of the weight at time t, sketch the graph of the function (Simple Harmonic motion)