An Introduction to Engineering Mechanics

An Introduction to Engineering Mechanics

An introductory text on engineering mechanics provides a comprehensive overview of a range of subjects. In particular, the text includes a number of case studies, which highlight the relevance of technical content in historical, societal, and ethical contexts. These case studies are valuable in providing a holistic perspective for engineers and other technical professionals. In addition, the text provides an in-depth exploration of the relationship between mechanical properties and human health.

Statics

Introduction to engineering mechanics and statics is the first of two courses covering fundamental principles of engineering. This course emphasizes real-world engineering applications and problem-solving. The course prerequisites include physics and basic calculus. Students should be comfortable with concepts from those courses. For example, students should know how to construct a free body diagram and how to apply constraints. This book also offers interactives and multiple-choice exercises for students to practice what they have learned.

Kinematics

If you want to learn more about the science of motion and how objects move, a course in kinetics is the right choice for you. This branch of engineering mechanics studies the positions and causes of motion in an object. Using this knowledge in your preparation will help you solve difficult mathematical problems. A good way to improve your preparation is to use an e-learning platform, which offers you a wealth of free resources, such as practice exams, model problem papers, and online doubt clearing sessions.

Materials strength

In the field of engineering mechanics, a crucial subject is Materials Strength. Mechanics of Strength deals with the behavior of materials under external loads, such as compression or tension. It explains the effects of strains, stresses, breaks, and fractures, and helps engineers make better decisions. However, this subject can be confusing and difficult to understand, which is why it is vital for mechanical engineers. If you’re looking for an easy-to-understand, reliable book that teaches all of the basics of this subject, this is the book for you.

Thermodynamics

This introductory course will introduce students to the basics of thermodynamics and their applications. Students will learn about the properties of pure substances and the mathematical foundations of thermodynamics. The course also explores general thermodynamic relationships and materials science. Prerequisites: EGMN 3100 or permission of the instructor. The course will help students gain a foundation for engineering thermodynamics. It covers topics in the first and second laws of thermodynamics and the fundamentals of additive manufacturing.

Applications

Applications of engineering mechanics range from everyday products such as cars and bikes to complex structures, such as skyscrapers and ships. These innovations in mechanical systems can make everyday products lighter, stronger, or cheaper, or provide new functionality and aesthetics. Many engineering mechanics innovations also help make our world a more sustainable place. For instance, understanding aerodynamic interactions between vehicles and their environment is essential for the development of propulsion systems. In addition, engineering mechanics is critical in the design and operation of spacecraft, which are responsible for taking humans and their wildlife into space.

Prerequisites

The program is designed to prepare students for graduate-level work in the engineering field. Students will learn how to apply the principles of mechanics to real-world engineering problems. Faculty in this program have broad expertise in the field and teach students how to use the field to solve practical problems. A good understanding of linear algebra and calculus is helpful. This program requires some prerequisites for admission. The course prerequisites vary, but are the same for all engineering students.

 

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