a mass sliding on a frictionless table between two walls that are 1 unit apart and connected to both walls with springs. let k1 and k2 be the spring constants of the left and right springs respectively, let m be the mass, and let b be the damping coefficient of the medium the spring is sliding through. Suppose L1 and L2 are the rest lengths of the left and right springs, respectively. Write a second order differential equation for the position of the mass at time t. (the LH wall is origin)

a mass sliding on a frictionless table between two walls that are 1 unit apart and connected to both walls with springs. let k1 and k2 be the spring constants of the left and right springs respectively, let m be the mass, and let b be the damping coefficient of the medium the spring is sliding through. Suppose L1 and L2 are the rest lengths of the left and right springs, respectively. Write a second order differential equation for the position of the mass at time t. (the LH wall is origin)

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Plz solve it within 30-40 mins I'll give you multiple upvote

a mass sliding on a frictionless table between two
walls that are 1 unit apart and connected to both
walls with springs. let kl and k2 be the spring
constants of the left and right springs respectively,
let m be the mass, and let b be the damping
coefficient of the medium the spring is sliding
through. Suppose L1 and L2 are the rest lengths of
the left and right springs, respectively. Write a
second order differential equation for the position
of the mass at time t. (the LH wall is origin)

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