Fluid Mechanics Made Easy: Ace Your Engineering Exams

Master Fluid Mechanics with Visual Lessons, Real-World Applications, and Step-by-Step Problem Solving for Engineering St

What you'll learn

Understand the Fundamental Principles of Fluid Mechanics

Apply Bernoulli’s and Continuity Equations to Practical Problems

Analyze Fluid Systems Using Control Volume and Differential Approaches

Solve Real-World Engineering Problems Involving Flow Measurement and Pipe Systems

Requirements

Basic Knowledge of Algebra, Calculus, and Physics

Familiarity with Statics or Mechanics of Materials (Recommended but Not Required)

No Specialized Tools Required

Curiosity and Commitment

Description

Fluid Mechanics is one of the most important and challenging subjects in engineering education—and mastering it is essential for success in Civil, Mechanical, Aerospace, and Chemical Engineering. This course offers a clear, interactive, and application-focused approach to understanding fluid behavior and solving real-world problems.Taught by Rateeb (Ryan) Yehya, a professional engineer and experienced instructor, this course breaks down complex topics into simple, visual explanations using a digital pad and pen—just like Khan Academy. With over a decade of tutoring experience and real-world engineering insight, Rateeb makes learning fluid mechanics approachable, engaging, and practical.In this course, you’ll learn how to:Understand fluid properties, pressure, and buoyancyApply Bernoulli’s equation and the continuity principleAnalyze pipe systems, flow measurement devices, and energy lossesUse control volume methods to solve real-world fluid flow problemsThis course features:High-quality video lessons with digital whiteboard demonstrationsPop-up quizzes and checkpoints to reinforce learningReal-world examples drawn from engineering practiceStep-by-step problem walkthroughs to build strong problem-solving skillsWhether you're taking your first Fluid Mechanics class, preparing for the FE exam, or just brushing up on fundamentals, this course will give you the knowledge and confidence to succeed.Master Fluid Mechanics with Visual Lessons, Real-World Applications, and Step-by-Step Problem Solving for Engineering Students. This comprehensive course provides a solid foundation in fluid behavior, pressure dynamics, and flow analysis critical for success in Civil, Mechanical, Aerospace, and Chemical Engineering. Designed for undergraduate students and professionals alike, the course combines clear, interactive video lectures with practical engineering examples. Learners will gain the confidence to tackle complex fluid mechanics problems, prepare effectively for the FE exam, and apply concepts directly to engineering challenges in their academic and professional careers.

Overview

Section 1: Fluid Properties

Lecture 1 Density, Specific Weight, and Specific Gravity

Lecture 2 Vapor Pressure, Specific Volume, and Compressibility

Lecture 3 Atmospheric Gage Pressure and Absolute Pressure

Lecture 4 The Idea Gas Law

Lecture 5 Problem 1

Lecture 6 Viscosity

Lecture 7 Viscosity - Part 2

Lecture 8 Problem 2

Lecture 9 Problem 3

Lecture 10 Problem 4

Lecture 11 Surface Tension

Lecture 12 Capillarity

Section 2: Hydrostatic Force on Planar and Curved Surfaces

Lecture 13 Pressure Variation with Depth in Continuous Fluids

Lecture 14 Pressure Variation with Depth in Two or More Layers

Lecture 15 Hydraulic Jack

Lecture 16 Manometers

Lecture 17 Piezometric Head and Piezometric Pressure

Lecture 18 Hydrostatic Force on a Plane Surface

Lecture 19 Problem 1

Lecture 20 Problem 2

Lecture 21 Forces on Curved Surfaces

Lecture 22 Problem 3

Lecture 23 Buoyancy

Lecture 24 Problem 4

Lecture 25 Problem 5

Section 3: Fluid Motion

Lecture 26 Description of Fluid Motion

Lecture 27 Acceleration

Lecture 28 Problem 1

Lecture 29 Euler's Equation

Lecture 30 Problem 2

Lecture 31 Bernoulli's Equation

Lecture 32 Types of Pressure

Lecture 33 Piezometric Tube and Pitot Tube

Lecture 34 Problem 3

Lecture 35 Stagnation Point and Multiple Fluids

Lecture 36 Problem 4

Lecture 37 Problem 5

Section 4: Continuity Equation, Control Volumes, and the Momentum Equation

Lecture 38 Volume Flow Rate, Mean Velocity, and Mass Flow Rate

Lecture 39 Problem 1

Lecture 40 Control Volume and Control Surface

Lecture 41 Continuity Equation

Lecture 42 Problem 2

Lecture 43 Problem 3

Lecture 44 Problem 4

Lecture 45 Energy, Work, and Power

Lecture 46 Problem 5

Lecture 47 Pumps and the Pump Power

Lecture 48 Problem 6

Lecture 49 Turbines and Power Extracted

Lecture 50 Problem 7

Lecture 51 Energy Grade Line and Hydraulic Grade Line

Lecture 52 The Momentum Equation

Lecture 53 Procedure to Apply the Momentum Equation

Lecture 54 Problem 8

Lecture 55 Problem 9

Section 5: Drag and Lift

Lecture 56 Introduction to Drag Force

Lecture 57 Drag Force Formula

Lecture 58 Coefficient of Drag in 2D Bodies

Lecture 59 Problem 1 - Using Cd Tables

Lecture 60 Coefficient of Drag in 3D Bodies

Lecture 61 Terminal Velocity

Lecture 62 Power and Rolling Resistance

Lecture 63 Introduction to Lift Force

Lecture 64 Lift Force Formula

Lecture 65 Induced and Total Drag in Airfoils

Lecture 66 Stall Speed

Lecture 67 Drag and Lift for Vehicles

Lecture 68 Problem 2

Section 6: Dimensional Analysis and Similitude

Lecture 69 Dimensions in Fluid Mechanics

Lecture 70 Need for Dimensional Analysis

Lecture 71 Buckingham Pi Theorem

Lecture 72 Dimensionless Quantities

Lecture 73 How to Perform Dimensional Analysis

Lecture 74 Problem 1

Lecture 75 Problem 2

Lecture 76 Introduction to Similitude

Lecture 77 Types of Similitude

Lecture 78 Problem 3

Lecture 79 Problem 4

Lecture 80 The Use of Dimensionless Numbers

Lecture 81 Problem 5

Undergraduate Engineering Students,FE Exam Candidates,Engineering Professionals Looking to Refresh Their Knowledge,STEM Students Exploring Engineering Concepts