Engineering Mathematics II
Course Objectives:
- To develop the skill of solving differential equations and to provide knowledge of vector algebra and calculus
- To make students familiar with calculus of several variables and infinite series
- Calculus of Two or more variables(6 hours)
- Introduction: Limit and Continuity
- Partial Derivatives
- Homogeneous function, Euler’s theorem for the function of two and three variables
- Total Derivatives
- Extrema of functions of two and three variables: Lagrange’s Multiplier
- Multiple Integrals(6 hours)
- Introduction
- Double Integrals in Cartesian and Polar form: Change of order of integration
- Triple Integrals in Cartesian, Cylindrical and Spherical coordinates
- Area and Volume by Double and Triple Integrals
- Three Dimensional Solid Geometry(11 hours)
- The Straight Line; Symmetric and General form
- Coplanar Lines
- Shortest Distance
- Sphere
- Plane Section of a Sphere by Planes
- Tangent Planes and Lines to the Spheres
- Right Circular Cone
- Right Circular Cylinder
- Solution of Differential Equations in Series and Special Functions(9 hours)
- Solution of Differential Equation by Power Series Method
- Legendre’s Equation
- Legendre's Polynomial function: Properties and Applications.
- Bessel’s Equation
- Bessel’s Function of First and Second kind: Properties and Applications
- Vector Algebra and Calculus(8 hours)
- Introduction
- Two and Three dimensional vectors
- Scalar Products and Vector Products
- Reciprocal System of Vectors
- Application of Vectors: Lines and Planes
- Scalar and Vector fields
- Derivatives– Velocity and Acceleration
- Directional Derivatives
- Infinite Series(5 hours)
- Introduction
- Series with Positives terms
- Convergence and Divergence
- Alternating series: Absolute convergence
- Radius and Interval of Convergence
References:
- Erwin Kreyszig, "Advanced Engineering Mathematics" , John Wiley and Sons Inc
- Thomas, Finney, "Calculus and Analytical Geometry" Addison- Wesley
- M. B. Singh, B. C. Bajrachrya,"Differential Calculus", Sukunda Pustak Bhandar,Nepal
- M. B. Singh, B. C. Bajrachrya, "A text book of Vectors", Sukunda Pustak Bhandar,Nepal
- M. B. Singh, S. P. Shrestha, "Applied Mathematics"
- G.D. Pant, G. S. Shrestha, "Integral Calculus and Differential Equations", Sunila Prakashan,Nepal
- Y. R. Sthapit, B. C. Bajrachrya, "A text book of Three Dimensional Geometry", Sukunda Pustak Bhandar,Nepal
- Santosh Man Maskey,"Calculus", Ratna Pustak Bhandar, Nepal
Evaluation Scheme:
The questions will cover all the chapters in the syllabus. The evaluation scheme will be as indicated in the table below:
Chapter |
Hours |
Mark distribution * |
-
|
06 |
10 |
-
|
06 |
10 |
-
|
11 |
20 |
-
|
09 |
15 |
-
|
08 |
15 |
-
|
05 |
10 |
Total |
45 |
80 |
*Note: There may be minor deviation in marks distribution.
|