Combined, Bending and Shear Stresses syllabus for GATE is part of the applied mechanics and design section in the examination for mechanical engineers. The weightage for the strength of materials ranges from 8-14 points. The Combined, Bending and Shear Stresses MCQ questions in GATE ME tests the aspirant’s knowledge of the strength of materials. The topic focuses on the mechanics of materials and is necessary for designing structural projects.
Most competitive examinations like GATE, NPTEL, ESE, ISRO, and BARC will have a significant Combined, Bending and Shear Stresses quiz to test the student’s skills and knowledge. Students need not focus on the topic of Combined, Bending and Shear Stresses for computer science.
Important Topics of Combined, Bending and Shear Stresses for GATE ME
Any good Combined, Bending and Shear Stresses book or Combined, Bending and Shear Stresses GATE notes should break down the various topics and concepts that are part of Combined, Bending and Shear Stresses.
Topic | Explanation |
Bending moment in beams | Loads on the beam are perpendicular to the axis of the beam |
Beams of uniform strength | Beams that have constant bending stress through their section have uniform strength |
Shearing stress | Shear stress on a rectangular, circular, hollow circular, and triangular section beams along with I-section beams |
Stress due to twisting and bending moment | Equivalent bending moment and equivalent torsional moment |
Stress due to axial load and bending moment | Concepts of equivalent axial loads and equivalent bending moments |
Tips to prepare Combined, Bending and Shear Stresses for GATE
- Practice with Combined, Bending and Shear Stresses GATE questions and answers pdf to improve your speed.
- Use good Combined, Bending and Shear Stresses notes for gate pdf to understand the concepts.
- Have a concept sheet or notebook with all the relevant formulae to help with revision and retention of topics that may appear in the exam.
- Try to find the answer by logging in each solution in the question asked.
Importance of Combined, Bending and Shear Stresses in GATE Exams
- Combined, Bending and Shear Stresses is an easy topic with straightforward theory and application, making it easy to score marks.
- Mechanical engineering and civil engineering GATE syllabus contains questions based on Combined, Bending and Shear Stresses
- Combined, Bending and Shear Stresses GATE MCQs are part of the strength of materials topic, which counts for 8-14 marks.
- Relatively few formulae to remember, meaning they are high-scoring questions.
Most Recommended Books for Combined, Bending and Shear Stresses
Aspirants can pick from several books that cover the Combined, Bending, and Shear Stresses GATE syllabus. Aspirants must also aim to solve Combined, Bending and Shear Stresses MCQ PDF to improve their speed on the GATE exam.
Title | Author |
Strength of Materials | Ashok Kumar Jain, Arun Kumar Jain, B C Purnima |
A Textbook of Strength of Materials | R K Bansal |
Mechanics of Materials | R K Rajput |
Strength of Materials: Mechanics of Solids | Mikell Groover |
Strength of Materials | R S Khurmi, N Khurmi |
Why Prepare for Combined, Bending and Shear Stresses from BYJU'S Exam Prep
BYJU'S Exam Prep has comprehensive training modules for aspirants looking to successfully tackle the GATE examination. The platform’s unique selling point is its highly-experienced mentors who are always on-hand to explain concepts and clarify any doubts. BYJU'S Exam Prep also presents clear and concise GATE study material that is designed to help aspirants crack the examination. The student platform encourages discussions on the concepts and previous years’ question papers. BYJU'S Exam Prep also encourages students to take Combined, Bending and Shear Stresses online test since it will help them to familiarize with the exam and also improve their speed of solving questions.
FAQs
Q. What is the strength of materials?
The strength of materials is their ability to resist an applied load without failure or plastic deformation.
Q. What is normal stress?
Stress can be interpreted as the strength of a material per unit area. It is the force on a structural object divided by the area of the object.
Q. What are the different types of mechanical stress?
There are five types of mechanical stresses. These include torsion, bending, shear, tension, and compression stress.
Q. What are the real-world applications of the strength of materials?
The strength of materials is used by civil and mechanical engineers. Civil engineers use the concepts to design structures and buildings while mechanical engineers use them for designing load-bearing components in power generation, transmission, and vehicles.
Q. What is the difference between the stress and strength of a material?
The stress of a material is the internal force of the material generated due to the application of an external force. Strength of a material is the maximum stress the material can withstand before failing.