49:52
NCSU MA241Lct1 Course Introduction
CosmoLearning
52:18
NCSU MA241Lct2 Review of Additional Integration Techniques Trig Integrals, Partial Fractions
49:24
NCSU MA241Lct3 Table of Integrals
50:38
NCSU MA241Lct4 Approximate Integration: Trapezoidal Rule
49:40
NCSU MA241Lct5 Approximate Integration: Simpson's Rule Cont, Error Bound
51:04
NCSU MA241Lct6 Improper Integrals: Infinite Intervals
50:14
NCSU MA241Lct7 Improper Integrals: Discontinuous Integrands, Comparison Theorem
51:11
NCSU MA241Lct8 Area Between Curves, Area Enclosed by Parametric Curves
49:46
NCSU MA241Lct9 Volumes: Solids of Revolution
47:39
NCSU MA241Lct10 Volumes: Cylindrical Shells
49:18
NCSU MA241Lct11 Arc Length
44:38
NCSU MA241Lct12 Average Value of a Function, Mean Value Theorem for Integrals
49:39
NCSU MA241Lct13 Review for Test #1 Part 1
49:19
NCSU MA241Lct14 Review for Test #1 Part 2
49:05
NCSU MA241Lct15 Applications to Physics and Engineering: Hooke's Law
51:00
NCSU MA241Lct16 Applications to Physics and Engineering: Pressure and Pumping Problems I
47:47
NCSU MA241Lct17 Applications to Physics and Engineering: Pressure and Pumping Problems II
49:13
NCSU MA241Lct18 Applications to Physics and Engineering: Moments and Centers of Mass
45:15
NCSU MA241Lct19 Modeling with Differential Equations
49:25
NCSU MA241Lct20 Direction Fields and Euler’s Method
50:18
NCSU MA241Lct21 Euler's Method and Separable Differential Equations
NCSU MA241Lct22 Separable Differential Equations: Orthogonal Trajectories
49:17
NCSU MA241Lct23 Separable Differential Equations: Tank Problems
