Content
- Structural mechanics – mathematics
- Mechanical engineering – strength of materials
- Mechanics of technology – power
- Machine works
- Graphic design
- Measuring instruments
- Phone book
- Product overview
Preface
The basic principle of engineering is mechanical engineering, which describes the movements of objects and the forces associated with these movements.Structural mechanics studies the balance of forces and the resulting stresses and deformations. Based on properties such as strength, allowable stress or deformation, the material is designed to combine applied strength with the ability to withstand shock. This requires the stress on the material to be below the stress tolerance.
The number of complex problems faced by engineers has increased over the past decade, and the engineering skills required to solve and alleviate them continue to grow rapidly. These topics include not only the design of technical systems and their components and systems, but also the design, design and integration of social, policy, management, business, biological, medical and other systems. These systems can be dynamic and adaptive in nature. Finding creative solutions to such large, unstructured problems requires operations that transcend traditional boundaries.
Engineering Mechanics and Applied Research: Fundamentals of Interdisciplinary Engineering introduces basic engineering principles to research practices. It makes it easier to collaborate across teams by providing non-mechanical engineers with the knowledge needed to understand the mechanics of a project.
Combining mathematics, dynamics, vibrations and material dynamics in one book, the book provides a practical explanation of design. It begins with an overview of Prevention by Design (PtD), providing a broad understanding of the safety and health needs of design in the workplace. It then presents the fundamental principles of engineering, engineering strength and critical mechanics, as well as failure modes and operational loads. Real-life analysis examples and applications show how interdisciplinary know-how can be applied in practice.
A brief introduction to mechanical engineering and design. The book is suitable for non-disabled students who need to understand the basic principles of mechanical engineering, as well as engineering students preparing for core exams. Professional engineers, researchers, and non-mechanical scientists, especially those working on large construction projects, will also find it a valuable resource.
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