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METHOD OF UNDETERMINED COEFFICIENTS

METHOD OF UNDETERMINED COEFFICIENTS. Solve the following differential equation using method of undetermined. LET’S WE TRY IT……. 1. 2. Example. TRY THIS ALSO….. . 1. 2. 3. METHOD OF VARIATION OF PARAMETER. METHOD OF SOLUTION. Identify a and f(x). Substitute to general solution:.

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METHOD OF UNDETERMINED COEFFICIENTS

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  1. METHOD OF UNDETERMINED COEFFICIENTS

  2. Solve the following differential equation using method of undetermined

  3. LET’S WE TRY IT…… 1 2

  4. Example

  5. TRY THIS ALSO….. 1 2 3

  6. METHOD OF VARIATION OF PARAMETER

  7. METHOD OF SOLUTION Identify a and f(x) Substitute to general solution: Determine y1 and y2 (obtain from general solution of homogeneous equation y=Ay1+ By2) Evaluate u and v Evaluate Wronskian,

  8. Example

  9. Other question 1 2

  10. EULER EQUATION

  11. It called second order linear differential equation with variable coefficient • Euler equation: • Use substitution thus , and to reduce: • Solve it and get the answer in term of x and y From variable coefficient To constant coefficient

  12. Solve it…… 1 2 3 4

  13. APPLICATION-VIBRATING SPRING-

  14. In equilibrium, [figure 1(b)] according to Newton's First Law, the resultant force is zero, So: • In this case, the spring stretched as far as s. according to Hooke's law • From 1 and 2 obtain • Next in equilibrium, the mass is pulled down a distance x and released. According to Hooke's law this spring elongation when F is: 1 2 3 4

  15. According to Newton’s Second Law: • From equation 4, • When the resistance is negligible, the resistance equal to zero, so equation 5 becomes 5 6

  16. From equation 6 or is called second order linear homogeneous differential equation: • From 7, get the general solution as 7 Equation of Motion

  17. The period of free vibrations • Frequency is • If initial condition is given, find the value of A and B in equation of motion.

  18. EXAMPLE

  19. THE END…….

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