KARTHIK MK Assistant Prof. Specialization Aircraft Structures
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teaching will be done in much easier and comfortable manner. all the lessons will be taught from basics with practical examples. once you understand the basics correctly writing exams as well as competitive exams also becomes lot easier.
since i am having experience in teaching aeronautical engineering subjects for the past 10 years, i can train students to be competitive enough for all type of exams.
teaching will done through modern tools and technologies such as power point presentations and interactive videos. so that students can understand the concepts by visualization rather than imagination

Subjects

Strength of Materials Expert
Electrical circuits Beginner-Expert
Mechanics of Machinery Beginner-Expert
Electronics Circuits I and II Expert
Advanced Aerospace Structures Beginner-Expert
Advanced Mechanics of Materials Beginner-Expert
Mechanics (Advanced) Beginner-Expert

Experience

ASSISTANT PROFESSOR (Jul, 2019–Present) at BHARATH INSTITUTE OF HIGHER EDUCATION AND RESEARCH, CHENNAI, INDIA (ENGG. COLLEGE)

WORKING AS ASSISTANT PROFESSOR WITH 10 YEARS OF TEACHING EXPERIENCE IN AERONAUTICAL ENGINEERING DEPARTMENT

Education

Ph.D - Pursuing (Jun, 2021–now) from Bharath institute of Higher Education and Research, Chennai
AERONAUTICAL ENGINEERING (Aug, 2007–Jun, 2009) from Madras institute of technology Chennai (Anna University)
MECHATRONICS ENGINEERING (Aug, 2002–May, 2006) from Maharaja Engineering College, Avinashi

Fee details

₹1,000–2,000/hour (US$10.53–21.05/hour)

Courses offered

STRENGTH OF MATERIAL
- US$15000
- Duration: 30 Hours
- Delivery mode: Online
- Group size: 5
- Instruction language: English
- Certificate provided: No
Strength of Materials is a branch of engineering that examines how materials react to forces, stresses, and deformations to ensure the safety and durability of structures and mechanical components. It involves concepts like stress and strain, different types of stress (tensile, compressive, shear, and torsional), and material behavior under load, including elasticity and plasticity. The modulus of elasticity defines a material's stiffness, while failure theories distinguish between brittle (sudden breakage) and ductile (gradual deformation) failures. The factor of safety ensures reliability in design, and structural elements like beams, columns, and shafts are analyzed for their load-bearing capabilities. Strength of Materials is widely applied in civil, mechanical, aerospace, and automotive engineering to create strong and efficient designs.