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13 Nov 2019
(3 points) In this problem you will solve the non- homogeneous differential equation (1) Let C1 and C2 be arbitrary constants. The general solution to the related homogeneous differential equation y" + 25y = 0 is the function NOTE: The order in which you enter the answers is important; that is, 2) The particular solution yp(x) to the differential equation y" + 25y = sec2(5a) is of the form n(z) = yi (z) ui (z) + ½(z) u2(z) where and u,(z) = (3) It follows that ui (z) = and u2 (z) thus yp(z) = (4) The most general solution to the non- homogeneou s differential equation 25ysec?(5x) is +C2
(3 points) In this problem you will solve the non- homogeneous differential equation (1) Let C1 and C2 be arbitrary constants. The general solution to the related homogeneous differential equation y" + 25y = 0 is the function NOTE: The order in which you enter the answers is important; that is, 2) The particular solution yp(x) to the differential equation y" + 25y = sec2(5a) is of the form n(z) = yi (z) ui (z) + ½(z) u2(z) where and u,(z) = (3) It follows that ui (z) = and u2 (z) thus yp(z) = (4) The most general solution to the non- homogeneou s differential equation 25ysec?(5x) is +C2
Jamar FerryLv2
10 Oct 2019