Description: Engineering Mathematics I is the art of applying mathematics to complex real-world problems. It combines mathematical theory, practical engineering and scientific computing to address today’s technological challenges
Curriculum
- 1 Section
- 32 Lessons
- 10 Weeks
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- Mathematics I32
- 2.1Lecture 1: Real Number
- 2.2Lecture 2: Sequences I
- 2.3Lecture 3: Sequences II
- 2.4Lecture 4: Sequences III
- 2.5Lecture 5: Continuous Function
- 2.6Lecture 6: Properties of Continuous function
- 2.7Lecture 7: Uniform Continuity
- 2.8Lecture 8: Differentiable function
- 2.9Lecture 9: Mean Value Theorems
- 2.10Lecture 10: Maxima – Minima
- 2.11Lecture 11: Taylors Theorem
- 2.12Lecture 12: Curve Sketching
- 2.13Lecture 13: Infinite Series I
- 2.14Lecture 14: Infinite Series II
- 2.15Lecture 15: Tests of Convergence
- 2.16Lecture 16: Power Series
- 2.17Lecture 17: Riemann integral
- 2.18Lecture 18: Riemann Integrable functions
- 2.19Lecture 19: Applications of Riemann Integral
- 2.20Lecture 20: Length of a curve
- 2.21Lecture 21: Line integrals
- 2.22Lecture 22: Functions of several variables
- 2.23Lecture 23: Differentiation
- 2.24Lecture 24: Derivatives
- 2.25Lecture 25: Mean Value Theorem
- 2.26Lecture 26: Maxima Minima
- 2.27Lecture 27: Method of Lagrange Multipliers
- 2.28Lecture 28: Multiple Integrals
- 2.29Lecture 29 – Surface Integrals
- 2.30Lecture 30: Greens Theorem
- 2.31Lecture 31: Stokes Theorem
- 2.32Lecture 32: Guass Divergence Theorem
