2. Motion of a Particle Connected to a Spring Consider a particle of mass m connected to a spring with a spring (elastic) constant s = k exp(-at) at time t, where k and a are both positive. Thus, the spring constant ages over time and decreases. The governing equation for the position y(t) of the particle at time t is given by, dy + sy = 0. (1) dt2 (a) Let, z = (4k/a?m)'/² exp(-at/2). Derive the governing equation for y(2).
2. Motion of a Particle Connected to a Spring Consider a particle of mass m connected to a spring with a spring (elastic) constant s = k exp(-at) at time t, where k and a are both positive. Thus, the spring constant ages over time and decreases. The governing equation for the position y(t) of the particle at time t is given by, dy + sy = 0. (1) dt2 (a) Let, z = (4k/a?m)'/² exp(-at/2). Derive the governing equation for y(2).
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Transcribed Image Text:2. Motion of a Particle Connected to a Spring
Consider a particle of mass m connected to a spring with a spring (elastic) constant
s = k exp(-at) at time t, where k and a are both positive. Thus, the spring constant
ages over time and decreases. The governing equation for the position y(t) of the particle
at time t is given by,
dy
+ sy = 0.
(1)
dt2
(a) Let, z = (4k/a?m)'/² exp(-at/2). Derive the governing equation for y(2).
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