1. The general form of linear second-order differential equation can be written in the form:و بار / كلية الهندسةQ4)/grapdyq(x)y = r(x)d'y+p(x)dxdyb.dx- F(x)y = F(x)x2 dydx- xy =C.d. r2 d?ydx2-f(x)y = F(x)2431)(5-1) 3(3-21)2a. (221 -91i) / 169b. (21 + 52i)/ 13c. (-90+220i)/169d. (-7+17i)/ 132. Simplify:الحدار المك المراغة3. If the roots of second order differential equation is complex conjugate, then the genecontain:a. sinusoidal functions and exponentialsb. constant and two exponentialsc. two constants and two exponentialsd. two constants and one exponential54. The order and degree of the differential: 3(3 - + 4y = sinx* are:d²ya. First-order, First-degree-b. First-order, second-degreeSecond -order, First -degreed. Second -order, second-degreedx2lo - 2i tisi.8- 12i5. The particular solution of (D² + 4)y = cos 2x is equal to:a. sin 2xb. cos 2x13+159C. 4 cos 2xd. 4 sin 2x5-12loBest wishesالامتحانيةد. مازن ياسین عبودرئيس القسمبن فاضل بريذعس المادة

Answered: Q5): 1. The general form of linear…

Q5): 1. The general form of linear second-order differential equation can be written in the dy 9(x)y = r(x) +P(x) b. x-f(x)y= f(x) -xy f(x) - fx)y = F(x) d²y a. dx dx dx c. x2dy dx

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Fluid Kinematics

The branch of science that deals with objects which are either in motion or stationary are studied under the branch of classical mechanics. Fluid mechanics is a subcategory of classical mechanics that deals with the behavior of fluids at rest (fluid statics) or in motion (posing some velocity). In fluid kinematics, studies focus on the associated motion of fluid particles or groups of particles, and its associated parameters like displacements, velocity, and acceleration without concerning about the forces that caused the motion. All the laws of classical mechanics are applied in the study of fluid kinematics.

Question

1. The general form of linear second-order differential equation can be written in the form:
و بار / كلية الهندسة
Q4)/
grap
dy
q(x)y = r(x)
d'y
+p(x)
dx
dy
b.
dx
- F(x)y = F(x)
x2 dy
dx
- xy =
C.
d. r2 d?y
dx2
-f(x)y = F(x)
2431)(5-1) 3
(3-21)2
a. (221 -91i) / 169
b. (21 + 52i)/ 13
c. (-90+220i)/169
d. (-7+17i)/ 13
2. Simplify:
الحدار المك المراغة
3. If the roots of second order differential equation is complex conjugate, then the gene
contain:
a. sinusoidal functions and exponentials
b. constant and two exponentials
c. two constants and two exponentials
d. two constants and one exponential
5
4. The order and degree of the differential: 3(3 - + 4y = sinx* are:
d²y
a. First-order, First-degree-
b. First-order, second-degree
Second -order, First -degree
d. Second -order, second-degree
dx2
lo - 2i tisi.
8- 12i
5. The particular solution of (D² + 4)y = cos 2x is equal to:
a. sin 2x
b. cos 2x
13+159
C. 4 cos 2x
d. 4 sin 2x
5-12
lo
Best wishes
الامتحانية
د. مازن ياسین عبود
رئيس القسم
بن فاضل بريذع
س المادة

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