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We have always been in the side of our students. Recently, we have received fairly huge demand for this subject, the one and only Engineering Mechanics. With 50% pass rate, we can be sure to say this acts as a gatekeeper subject, by restricting 50% of enrolled students. However, we have found a solution to this challenge. While our rates were already low, at only Rs. 799 compared to the standard charge of Rs. 3000 elsewhere, we recognize the high demand for this subject. Therefore, we are now offering Engineering Mechanics for just Rs. 99, which is even lower than your supply fees. Don't waste any more time, download Msigma from the playstore now and take advantage of this incredible opportunity. Learn with Msigma Gokulam.GO TO PLAYSTORE AND DOWNLOAD MSIGMA APP NOW.LET'S DISCUSS ENGINEERING MECHANICSIf you adopt this study method, Engineering Mechanics (EST 100) will be the easiest subject you'll encounter. Our Engineering Mechanics class is considered the best for KTU students, and it is comprehensive enough for studying Engineering Mechanics at any university in India. The class is designed to focus on fundamental concepts instead of following a particular syllabus.Engineering Mechanics (EST 100) will become easiest subject, if you study in this manner. This is the best Engineering Mechanics class for KTU. This class is enough for studying Engineering Mechanics for any university in India. Its absolutely concept wise class rather than following a special syllabus. Free Body Diagram, Vibration, Types of Vibration, Simple Harmonic Motion, Spring Constant, Previous Year Questions.


We cover the following modules:
Module 1
Introduction to engineering mechanics – introduction on statics and dynamics - Basic principles of statics – Parellogram law, equilibrium law – Superposition and transmissibility, law of action and reaction,
Concurrent coplanar forces - analysis of concurrent forces -methods of projections – Analysis of concurrent forces -methods of moment - Varignon’s Theorem of Moments - illustrative numerical exercise.
Module 2
Friction – sliding friction - Coulomb’s laws of friction – analysis of single bodies –illustrative examples on wedges and ladder - problems from wedges and ladder. General coplanar force system - resultant and equilibrium equations - illustrative examples- teacher assisted problem solving. Parallel coplanar forces – couple - resultant of parallel forces – centre of parallel forces – equilibrium of parallel forces – Simple beam subject to concentrated vertical loads. Problems on friction - analysis of connected bodies. illustrative numerical exercise – teacher assisted problem solving. General coplanar force system - Extended problem solving - Quiz to evaluate learning level.
Module 3
Moment of inertia- parallel axis theorem –examples for illustration -problems for practice to be done by self. Moment of inertia - perpendicular axis theorem - example for illustration to be given as hand out and discussion on the solved example. Solutions to practice problems – problems related to centroid and moment of inertia - problems for practice to be done by self. Polar moment of inertia, Radius of gyration. Mass moment of inertia of ring, cylinder and uniform disc. Theorem of Pappus Guldinus - Demonstration. Introduction to forces in space – vectorial representation of forces, moments and couples – simple problems to illustrate vector representations of forces, moments and couples to be done in class. Solution to practice problems - resultant and equilibrium equations for concurrent forces in space – concurrent forces in space - 2 simple problems to illustrate the application of resultant and equilibrium equations for concurrent forces in space.
Module 4
Introduction to dynamics – review of rectilinear translation -equations of kinematics – problems to review the concepts –introduction to kinetics – equation of motion – D’Alembert’s principle– illustration of the concepts using one numerical exercise from motion on horizontal and inclined surfaces. Motion of connected bodies. Curvilinear translation - Review of kinematics –projectile motion –simple problems to review the concepts – introduction to kinetics –equation of motion – illustration of the concepts using numerical exercises. Concepts on Impulse momentum equation and work energy equation (rectilinear translation – discussions to bring out difference betweenelastic and inelastic collusions). Concepts on Moment of momentum and work energy equation (curvilinear translation).
Module 5
Rotation – kinematics of rotation- equation of motion for a rigid bodyrotating about a fixed axis – simple problems for illustration. Rotation under a constant moment.
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