A mass of 150 g stretches a spring 1.568 cm. If the mass is set inmotion from its equilibrium position with a downward velocity ofcm50 and if there is no damping, determine the position u of the2Smass at any time t.NOTE: Assume g = 9.8 and enter an exact answer.m82)u(t) =When does the mass first return to its equilibrium position?NOTE: Enter an exact answer.t =mS

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Answered: A mass of 150 g stretches a spring…

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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A spring with a 2-kg mass and a damping constant 2 can be held stretched 2.5 meters beyond its natural length by a force of 7.5 newtons. Suppose the spring is stretched 5 meters beyond its natural length and then released with zero velocity, In the notation of the text, what is the value c² 4mk? 2 m²kg²/sec² Find the position of the mass, in meters, after t seconds. Your answer should be a function of the variable t with the general form cos(ßt) + c₂ert sin(8t) eat C1 α= ß = Y = 8 = - C1 = C₂ =
Q.13 The upward velocity of a rocket can be computed by the following formula: mo v=uln- gt mo + qt where v = upward velocity, u = the velocity at which fuel is expelled relative to the rocket, m, = the initial mass of the rocket at time t = 0, q = the fuel consumption rate, and g = the downward acceleration of gravity (assumed constant = 9.81 m/s²). If u = 2000 m/s, mo-150,000 kg, and q-2700 kg/s, compute the time at which v=750 m/s use the Newton-Raphson method within approximate relative error 2%. (Hint: t is somewhere between 10 and 50 sec.)
A force of 540 newtons stretches a spring 3 meters. A mass of 45 kilograms is attached to the end of the spring and is Initially released from the equilibrium position with an upward velccity of 6 m/s. Find the equation of motion. x(t) = m MY NOTES ASK YOUR TEACH
III. For Items Below Please Refer To This Problem An object is moving upwards in such a way that its distance S in centimeters above the earth's surface in t seconds is given by S=2250+1960t-490t2
Answer I. Problem Solving only, number 1.
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