Civil and Environmental Engineering Fundamentals

Civil and Environmental Engineering Fundamentals

North Carolina School of Science and Mathematics via YouTube Direct link

Ideal Gas Law and a Jet Engine!

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Ideal Gas Law and a Jet Engine!

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Civil and Environmental Engineering Fundamentals

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  1. 1 Thiessen Polygon Method: Step 1
  2. 2 Peak Discharge Estimation: Rational Method
  3. 3 Thiessen Polygon Method: Step 2
  4. 4 Population Attributable Fraction, part 1
  5. 5 Thiessen Polygon Method: Step 5
  6. 6 Thiessen Polygon Method: Step 3
  7. 7 Thiessen Polygon Method: Step 4
  8. 8 Dispersion Modeling
  9. 9 Stage-Discharge Curve Example
  10. 10 Fundamental and Derived Quantities
  11. 11 Principle of Moments: Varignon's Theorem Example
  12. 12 Curve Fitting a Stage-Discharge Relationship
  13. 13 Cantilever Beam: Shear and Moment Diagrams
  14. 14 Rainfall Runoff Depth and Curve Number
  15. 15 Population Attributable Fraction, part 2
  16. 16 Static Equilibrium: Moments
  17. 17 Temperature Scales: Relative and Absolute
  18. 18 Polar, Cylindrical & Spherical Coordinate Systems
  19. 19 Mean Values of Spatial Data
  20. 20 Principle of Moments: Varignon's Theorem
  21. 21 Vectors for Engineering #1: What is a vector?
  22. 22 Environmental Contaminants
  23. 23 Aircraft Principal Axes
  24. 24 Creating a Contour Map Using Isolines
  25. 25 Wing Geometry Terminology
  26. 26 Static Equilibrium: 2D Beam Examples
  27. 27 Isometric to Orthographic drawing
  28. 28 Static Equilibrium: Finding Reactions
  29. 29 Cartesian Coordinate Systems
  30. 30 2D Cellular Automata - Conway's Game of Life
  31. 31 Vectors for Engineering #4: Vector Addition
  32. 32 Design of Multivariate Experiments
  33. 33 Measurement of an Irregular Channel Cross Section
  34. 34 Ideal Gas Law and a Jet Engine!
  35. 35 Internal Stress
  36. 36 Personal Standing Pressure
  37. 37 Rainfall Characteristics
  38. 38 Visualizing Raster Data in a Spreadsheet
  39. 39 Examples of Internal Stress
  40. 40 Vectors for Engineering #3: Vector Components
  41. 41 Defining a Spatial Basis
  42. 42 Deflate-Gate and the Ideal Gas Law
  43. 43 Numerical Integration of Wing Planforms
  44. 44 Buoyancy
  45. 45 Tian Deng Reverse Engineering Project: Surface Area Calculation
  46. 46 Orthographic Projection - a paper airplane example
  47. 47 How Much Helium?
  48. 48 "My First Model" - Introduction to Cellular Automata and Agent Modeling
  49. 49 Orthographic Projection of Points, Lines and Planes part 1
  50. 50 Creating Raster Data from a Contour Plot
  51. 51 Vectors for Engineering #2: Graphical Vectors
  52. 52 Air Pollution
  53. 53 Drinking Water Treatment
  54. 54 Static Equilibrium: Support Reactions
  55. 55 2D Vector Addition Aero example 1
  56. 56 Concentration
  57. 57 "How Old Are You - In Seconds?" An example to motivate precision and significant figures.
  58. 58 Water Supply Modeling
  59. 59 Tian Deng Reverse Engineering Project: Measurement
  60. 60 Stress States
  61. 61 Numerical Integration of Bird Wings
  62. 62 Surface Characteristics and Runoff
  63. 63 Measurement & Precision
  64. 64 Static Equilibrium: Forces
  65. 65 Erosion
  66. 66 2D Vector Addition Aero example 2
  67. 67 Observing Air Pressure
  68. 68 Balance and Moments excerpt
  69. 69 Distributed loads
  70. 70 The Ideal Gas Law
  71. 71 Area MOI Calculation Examples
  72. 72 Runoff Pollutants
  73. 73 Continuity Equation: Stream Flow Example 1
  74. 74 Simply Supported Beam: Shear and Moment Diagrams
  75. 75 Orthographic Projection of Points, Lines and Planes part 3
  76. 76 Continuity Equation: Stream Flow
  77. 77 Volume and Flow, part 1
  78. 78 Gauge Discharge
  79. 79 Orthographic Projection of Points, Lines and Planes part 2
  80. 80 Continuity Equation: Stream Flow Example 2
  81. 81 Effects Of Scale on Buoyant Flight
  82. 82 Buckling
  83. 83 Exponential Growth and Decay
  84. 84 Area Moment of Inertia
  85. 85 Volume and Flow: Example 1
  86. 86 Volume and Flow, part 2
  87. 87 Cross Channel Geometry
  88. 88 Stress & Strain Examples
  89. 89 Tian Deng Reverse Engineering Project: Volume Approximation Formulas
  90. 90 Tian Deng Reverse Engineering Project: Volume Calculations
  91. 91 Volume and Flow: Example 2
  92. 92 Gauge Discharge Example
  93. 93 Bending Stress on a Beam
  94. 94 Free Body Diagrams
  95. 95 Internal Forces
  96. 96 Shear Stress and Strain
  97. 97 Strain

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