"Measuring Engineering Properties of Soil" by Warrey K. Wray is a well-organized laboratory manual suitable for first-year undergraduate courses in soil mechanics. The book includes experiments that are typically covered in such courses, with a logical sequence. The first chapter covers report writing, and most procedures align with ASTM standards. However, some procedures may be too complex for first-year students, and simpler alternatives could be suggested. The book was originally written for students in a construction engineering technology program, which explains the detailed coverage of topics like unit weight, effective stress, and settlement. These topics are usually covered in geotechnical lectures and may not need repetition in a laboratory manual. The author suggests that experiments can be completed in a two-hour lab session, but the specific gravity experiment may be too time-consuming. The book is a useful reference for undergraduate soil mechanics laboratory instructors. "Conduction of Heat in Solids" is a classic text that has been updated to a paperback edition. It remains a standard reference for exact solutions to boundary value problems in engineering. The book covers static and moving coordinates, isotropic and anisotropic media, and provides explicit solutions to practical problems. "Handbook of Mechanics, Materials, and Structures" is a comprehensive reference that covers various aspects of mechanics, materials, and structures. It is a good first source for quick reference on mathematical techniques or structural formulas. "Integral Methods in Science and Engineering" is a collection of papers from an international conference. It contains a wide range of state-of-the-art techniques and applications, making it a good reference for researchers in various fields."Measuring Engineering Properties of Soil" by Warrey K. Wray is a well-organized laboratory manual suitable for first-year undergraduate courses in soil mechanics. The book includes experiments that are typically covered in such courses, with a logical sequence. The first chapter covers report writing, and most procedures align with ASTM standards. However, some procedures may be too complex for first-year students, and simpler alternatives could be suggested. The book was originally written for students in a construction engineering technology program, which explains the detailed coverage of topics like unit weight, effective stress, and settlement. These topics are usually covered in geotechnical lectures and may not need repetition in a laboratory manual. The author suggests that experiments can be completed in a two-hour lab session, but the specific gravity experiment may be too time-consuming. The book is a useful reference for undergraduate soil mechanics laboratory instructors. "Conduction of Heat in Solids" is a classic text that has been updated to a paperback edition. It remains a standard reference for exact solutions to boundary value problems in engineering. The book covers static and moving coordinates, isotropic and anisotropic media, and provides explicit solutions to practical problems. "Handbook of Mechanics, Materials, and Structures" is a comprehensive reference that covers various aspects of mechanics, materials, and structures. It is a good first source for quick reference on mathematical techniques or structural formulas. "Integral Methods in Science and Engineering" is a collection of papers from an international conference. It contains a wide range of state-of-the-art techniques and applications, making it a good reference for researchers in various fields.