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MAK 210E
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Course Information
Course Weekly Lecture Plan
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Course Information
Course Name
Turkish
Mühendislik Matematiği
English
Engineering Mathematics
Course Code
MAK 210E
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
-
4
4
-
-
Course Language
English
Course Coordinator
Sinem Öztürk
Course Objectives
o To introduce the basic concepts required to understand, construct, solve and interpret differential equations.
o To teach methods to solve differential equations of various types.
o To give an ability to apply knowledge of mathematics to engineering problems.
Course Description
Importance of Differential Equations in Engineering, Classification of Differential Equations, First Order Differential Equations, Second Order Linear Differential Equations, Higher Order Linear Differential Equations, Laplace Transform, First Order Linear Equation Systems, Engineering Applications.
Course Outcomes
Student, who passed the course satisfactorily can:
o Classify differential equations according to certain features.
o Solve first order linear equations and nonlinear equations of certain types and interpret the solutions.
o Understand the conditions for the existence and uniqueness of solutions for linear differential equations.
o Solve second and higher order linear differential equations with constant coefficients and construct all solutions from the linearly independent solutions.
o Solve initial value problems using the Laplace transform.
o Solve systems of linear differential equations using linear algebra.
Pre-requisite(s)
MIN DD from MAT 102 or MAT 102E or MAT 104 or MAT 104E
Required Facilities
Other
Textbook
Other References
Cengel, Y. A., & Palm, W. J. (2013). Differential Equations for Engineers and Scientists. New York: McGraw-Hill Education. (Turkish version can also be found.)
Zill, D. G., & Zill, D. G. (2001). A first course in differential equations with modeling applications. Pacific Grove, CA: Brooks/Cole Thomson Learning.
Boyce, William E & DiPrima, Richard C (2005). Elementary differential equations and boundary value problems (7th ed). Wiley, Hoboken, NJ.
Kreyszig, E. (2006). Advanced Engineering Mathematics. John Wiley & Sons, Inc. New York, 9th Edition.
Xie, W. (2010). Differential equations for engineers. New York: Cambridge University Press.
Bronson, R., & Bronson, R. (1993). Schaum's outline of theory and problems of differential equations. New York: McGraw-Hill.
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