Deriving Bernoulli's Equation in 1 Video [Physics of Fluid Mechanics #53] скачать в хорошем качестве

Deriving Bernoulli's Equation in 1 Video [Physics of Fluid Mechanics #53]

We are going to derive Bernoulli's Equation for an ideal fluid all in one video! We'll use the Equation of Continuity (A1v1 = A2v2) and the Conservation of Energy Statement and apply them to a small flow tube in our fluid flow. If you would like to watch the 4-part series on this derivation that goes into more detail, you can find the videos below: Part I:    • Deriving Bernoulli's Equation: Introductio...   Part II:    • Deriving Bernoulli's Equation: External Fo...   Part III:    • Deriving Bernoulli's Equation: Calculating...   Part IV:    • Deriving Bernoulli's Equation: Kinetic & P...   ⏰ Timestamps: 0:00 Introduction 0:43 Ideal Fluid Model 0:58 Equation of Continuity 1:19 The Conservation of Energy Statement 2:58 The Flow Tube Model 4:27 External Forces on the System 7:43 Calculating External Work 12:45 Calculating Potential Energy 14:40 Calculating Kinetic Energy 16:20 Deriving Bernoulli's Equation 🎥 This lecture is part of the Physics of Fluid Mechanics course:    • The Physics of Fluid Mechanics   📘 Find my Digital Engineering Paper Templates here: https://www.etsy.com/shop/29moonnoteb... 💙 If you've found my content helpful and would like to support the channel, you can do so here: https://www.buymeacoffee.com/simmysigma 📝 You can download my lecture notes used in this series here: https://drive.google.com/file/d/1O7UR... 🌎 Follow me on Twitter here: @simmysigma --