Suppose a 10-lb object stretches a spring 2.25 feet while in equilibrium. If the object is displaced an additional 1 inches and is then setin motion with an initial upward velocity of -0.7 feet per second. Use 1 slug = 32 lbs.Your answer is partially correct.(i) For what values of a, ß, and y is this spring-mass system expressed as the following initial value problem, where u (t) is theposition of the object at any time t:α =eTextbook and Media,B ==u" + au = 0, u (0) = ß, u' (0) = y?, Y = =-0.7

Weight of the object is Spring is stretched while in equilibrium.The object is displaced an…

Answered: Suppose a 10-lb object stretches a…

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

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Analytical Solution to the Falling Parachutist Problem Problem Statement. A parachutist of mass 68.1 kg jumps out of a stationary hot air bal- loon. Use Eq. (1.10) to compute velocity prior to opening the chute. The drag coefficient is equal to 12.5 kg/s.
in b part, system gives an error that t is not defined for the frictionless spring question.
The density of air changes with height. Under some conditions density p, depends on height z, and temperature T according to the following equation where Po and A are both constants. A meteorological balloon ascends (i.e., starts at z = 1 and gains height) over the course of several hours. Complete parts (a) and (b) below. Az P(z,T) = Po e ..... dz v) and that the temperature changes over time (i.e., that T is given by a function T(t)), derive, using the chain rule, an expression for the rate of change of air density, (a) Assuming that the balloon ascends at a speed v (i.e., dt as measured by the weather balloon. Choose the correct answer below. dp Az dT O A. dt T2 dt dp %3D dt Az dT dp С. dt %3D + T dt dp Az) dT O D. dt T2) dt (b) Assume that v = 1, Po = 1, and A = 1 and that when t= 0, T= 1. Are there any conditions under which the density, as measured by the balloon will not change in time? That is, find a differential equation that T must satisfy, if dp = 0, and solve this…
Find the position of the mass after t seconds
5. A ball is launched vertically into the air from a height of h meters and with an initial upward velocity of u meters/second. The ball's height above ground is given by the equation H(t) = -4.9t2 + vt + h, where H is in meters and t is in seconds. (This is the metric version of the gravity model.)
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