Fundamentals of Fluid Mechanics

Master Fluid Mechanics Principles: In-Depth Concepts, Real-World Applications & 37 Solved Problems for Enhanced Learning

What you'll learn:

• Determine the variation of pressure in a fluid at rest
• Calculate the forces and moments exerted by a fluid at rest on plane or curved submerged surfaces
• Have a working knowledge of viscosity and the consequences of the frictional effects it causes in fluid flow
• Calculate the capillary rise (or drop) in tubes due to the surface tension effect
• Utilize Integral relations for a control volume and differential relations for fluid particles to analyze fluid flow problems.
• Use control volume analysis to determine the forces associated with fluid flow

Discover Fluid Mechanics Fundamentals: In-Depth Concepts, Practical Applications & Problem Solving with 37 Solved Examples

Dive into the fascinating world of fluid mechanics with this comprehensive course, designed to introduce you to the essential fluid properties, viscosity, surface tension, and pressure distribution in fluids. Gain a deep understanding of hydrostatic forces on plane and curved surfaces, buoyancy, and pressure measurement techniques using manometers and barometers.

This course covers integral relations for a control volume, including mass conservation, linear momentum equation, energy, and Bernoulli equations, providing you with a solid foundation in fluid mechanics principles. To ensure a thorough understanding and bridge the gap between knowledge and application, we have incorporated 37 solved problems throughout the course, helping you grasp the concepts with real-world examples.

Key Topics Covered:

1. Fluid properties: Explore the fundamentals of fluid mechanics, including fluid properties and their significance in various applications.

2. Viscosity and surface tension: Understand the critical role of viscosity and surface tension in fluid dynamics and their impact on fluid behavior.

3. Pressure distribution: Learn about pressure distribution in fluids and how it influences fluid flow and interactions with various surfaces.

4. Hydrostatic forces: Examine the hydrostatic forces acting on plane and curved surfaces and their implications in practical scenarios.

5. Buoyancy and pressure measurement: Discover the principles of buoyancy and pressure measurement techniques using manometers and barometers, essential tools in fluid mechanics.

6. Integral relations for a control volume: Master the integral relations for a control volume, including mass conservation, linear momentum equation, energy, and Bernoulli equations.

7. Problem-solving: Strengthen your understanding of fluid mechanics concepts through 37 solved problems, connecting theory with real-world applications.

Embark on your fluid mechanics journey and enhance your knowledge and problem-solving skills in this critical field. Enroll now for a comprehensive learning experience!