(0)(iv)Formulate a differential equation to express the previous system (apply Newton's SecondLaw)If m=2, b=1, and k-6, solve this second order differential equation assuming homogeneouscase (f(t)=0).If someone applied a force f(t) = 2 N (starting at t=0) to the previous system, solve thisnonhomogeneous second order differential equation.Suppose that the damping effect of the system is changed (b-10). How will this affect theresponse of the system assuming zero initial conditions? Show all details. Task 1:A mechanical system is shown in the figure below. This system consists of a damper (b), spring (k)and mass (m). A force f(t) can be applied on this system in order to move the mass a specific distancevalue (x). This system is governed by the following three equations:fi(t) = 771f₂(t) = bd²x(t)dt²bdx(t)dtf₂(t) = kxm

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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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6. Solve the system of linear differential equations 20-30+] a' (t)
Please use differential equations to solve
Find the general solution of an ordinary differential equation whose auxiliary equation is:
Find general solutions of the differential equation
Which of the following statements is true for a non-linear differential equation? A) The general solution can be obtained by direct integration. B) It can always be transformed into a linear differential equation using a change of variables. C) The solution involves finding an integrating factor to linearize the equation. D) Numerical methods are the only way to find an approximate solution.
EXERCISE 3.5 Solve the following differential equations (0²-3D+2)v=xc". 1.
Solve the non-homogeneous linear differential equations:
Below are 2 first order differential equations. a) Find the general solution of the function ? (?) from the first differential equationb) Substitute the general solution for ? (?) in the second differential equation to obtain the general solution for the function ? (?).
In application of 1st order linear differential equation. (a) Determine the expression for the velocity of the body at any time t. If A body weighing 0.5 kg is dropped 200 m above ground with no initial velocity. As it falls, the body encounters a force due to air resistance proportional to its velocity. If the limiting velocity of this body is 320 ft/sec, (b) Find the expression for the position of the body at any time t. Note use the formula in image.

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