Shear Strength Problems (Geomechanics - Soil Mechanics)
Ten Solved Problems of the highest quality
What you'll learn
Solve shear strength problems in civil engineering courses
Interpret direct shear test and solve related problems
Interpret triaxial UU test and solve related problems
Determine shear strength parameters from triaxial test data
Apply Mohr-Coulomb failure criterion to shear stress problems involving shear testing and insitu conditions
Requirements
Students should have already studied the theory of the subject (Shear Strength)
Description
This course suits students of civil engineering disciplines studying the shear strength of soils.
The course presents a step-by-step solution to 10 problems on the subject of shear strength in soils. The problems covered are similar to those you can find in an assignment or exam. The knowledge you will gain from this series will help you tackle other problems of various degrees of difficulty. You need to have studied the theory first before watching the videos since the course focuses of problem-solving only.
The problems cover the basics of the concept of shear strength with application to direct shear and triaxial testing under various drainage conditions. You will see how Mohr circles are drawn and interpreted to determine the shear strength parameters. You will learn how to apply the Mohr-Coulomb failure criterion to various shearing conditions. Please watch the review video to get an idea about the course. The problems covered were selected from various textbooks, university assignments, and final exams. The degree of difficulties varies to ensure broad coverage of the subject.
Understanding the concept of shear strength of soils is essential to the topic of shallow and deep foundations of soils.
Moreover, I have another course here on the subject of soil consolidation that you can refer to herein (Udemy).
Who this course is for
Civil engineering student taking soil mechanics course
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 785 MB | Duration: 1h 58m
Download
*
Ten Solved Problems of the highest quality
What you'll learn
Solve shear strength problems in civil engineering courses
Interpret direct shear test and solve related problems
Interpret triaxial UU test and solve related problems
Determine shear strength parameters from triaxial test data
Apply Mohr-Coulomb failure criterion to shear stress problems involving shear testing and insitu conditions
Requirements
Students should have already studied the theory of the subject (Shear Strength)
Description
This course suits students of civil engineering disciplines studying the shear strength of soils.
The course presents a step-by-step solution to 10 problems on the subject of shear strength in soils. The problems covered are similar to those you can find in an assignment or exam. The knowledge you will gain from this series will help you tackle other problems of various degrees of difficulty. You need to have studied the theory first before watching the videos since the course focuses of problem-solving only.
The problems cover the basics of the concept of shear strength with application to direct shear and triaxial testing under various drainage conditions. You will see how Mohr circles are drawn and interpreted to determine the shear strength parameters. You will learn how to apply the Mohr-Coulomb failure criterion to various shearing conditions. Please watch the review video to get an idea about the course. The problems covered were selected from various textbooks, university assignments, and final exams. The degree of difficulties varies to ensure broad coverage of the subject.
Understanding the concept of shear strength of soils is essential to the topic of shallow and deep foundations of soils.
Moreover, I have another course here on the subject of soil consolidation that you can refer to herein (Udemy).
Who this course is for
Civil engineering student taking soil mechanics course
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 785 MB | Duration: 1h 58m
Download
*