This section includes the PPTs used to support the lectures.
Attachments
- TEM - Lecture 1 - Introduction.pptx
- TEM - Lecture 2 - Conduction-conductivity-Eq.pptx
- TEM - Lecture 3 - Conduction-Heat Generation-Convection.pptx
- TEM – Lecture 4 - Exercises.pptx
- TEM – Lecture 5 Radiation.pptx
- TEM – Lecture 6 - Exercises.pptx
- TEM - Lecture 7 - Cylindrical coordinates.pptx
- TEM - Lecture 8 - Exercises.pptx
- TEM - Lecture 9 - Exercises.pptx
- Exercises ch1-2-3.docx
- TEM – Lecture 10 - Thermal Resistence.pptx
- TEM – Lecture 11 - Exercises.pptx
- TEM - Lecture 12 - Fins.pptx
- TEM - Lecture 13 - Fins Numerical methods.pptx
- TEM - Lecture 15 - Test 1 - Heat Transfer.pptx
- TEM - Lecture 16 - Advection Diffusion Equation.pptx
- TEM – Lecture 14 - Exercises.pptx
- TEM - Lecture 17 - Eulerian - Lagrangian.pptx
- TEM - Lecture 18 - Upwind - AdvectionDiffusion Numerics.pptx
- TEM - Lecture 19 - The case of a river.pptx
- TEM - Lecture 20 - Transport of a Conservative Property.pptx
- TEM – Lecture 21 - Conservative PropertyExercise.pptx
- TEM – Lecture 22 - Structure of the VBA code.pptx
- TEM - Lecture 23 - Central Differences - AdvectionDiffusion Numerics.pptx
- TEM - Lecture 24 - Taylor Series - AdvectionDiffusion Numerics.pptx
- TEM - Lecture 26 - Temperature.pptx
- TEM - Lecture 25 - Exercises.pptx
- TEM - Lecture 27 - Exercises with Temperature.pptx
- TEM – Lecture 28 - Decay.pptx
- TEM - Lecture 29 - OD-BOD Model for rivers.pptx
- TEM - Lecture 30 - evolution from V1 to V2.pptx