332301: Applied Mechanics Syllabus for Mining Engineering 3rd Sem K Scheme MSBTE PDF

Applied Mechanics detailed Syllabus for Mining Engineering (MZ), K scheme PDF has been taken from the MSBTE official website and presented for the diploma students. For Subject Code, Subject Name, Lectures, Tutorial, Practical/Drawing, Credits, Theory (Max & Min) Marks, Practical (Max & Min) Marks, Total Marks, and other information, do visit full semester subjects post given below.

For all other MSBTE Mining Engineering 3rd Sem K Scheme Syllabus PDF, do visit MSBTE Mining Engineering 3rd Sem K Scheme Syllabus PDF Subjects. The detailed Syllabus for applied mechanics is as follows.

Rationale

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Course Outcomes:

Students will be able to achieve & demonstrate the following COs on completion of course based learning

1. Select the suitable machine under given in mining condition.
2. Analyze the given force system to calculate resultant force in mining.
3. Determine unknown force(s) of given load combinations in the given situation.
4. Apply the laws of friction in the given situation.
5. Determine the centroid/center of gravity of the given structural elements of having specific shape and size.
6. Determine various material parameters under various load conditions.

Unit I

Simple Lifting Machine 1.1 Concept of simple lifting machine, load, effort, mechanical advantage, velocity ratio, efficiency of machines, reversible and non-reversible/self locking machines. (IKS*: Hand axe as wedge, Lever in battle, Inclined Plane for loading, Pulleys to lift water in irrigation) 1.2 Concept of ideal machine and its conditions, machine friction, ideal effort, ideal load, effort lost in friction and load lost in friction, maximum mechanical advantage and maximum efficiency. 1.3 Nature of graphs: Load vs. effort, load vs. ideal effort, load vs. MA, load vs. efficiency, Law of machine and its uses. 1.4 Velocity ratios of inclined plane, Differential axle and wheel, Worm and worm wheel, Single purchase and double purchase crab winch, Simple screw jack, Weston’s differential pulley block, geared pulley block, two sheave pulley block, three sheave pulley block Lecture Using Chalk-Board Video Demonstrations Presentations Case Study

Unit II

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Unit III

Equilibrium of Forces 3.1 Equilibrium and its conditions. 3.2 Equilibrant and relation with resultant, Equilibrant of concurrent force system. 3.3 Lami’s Theorem and its applications, Concept of Free body diagram, (Problems unknown not more than two.) 3.4 Types of supports: fixed, simple, hinged, roller and fixed, Types of beams: cantilever, simply supported, overhanging, continuous and fixed. Types of loads: vertical and inclined point load, uniformly distributed load. 3.5 Determination of Beam reactions using analytical method for cantilever simply supported and overhanging beam subjected to vertical load, inclined load and uniformly distributed load (combination of any two types). Lecture Using Chalk-Board Video Demonstrations Demonstration Presentations Site/Industry Visit Hands-on Case Study

Unit IV

Friction of Forces 4.1 Friction and its relevance in engineering, types and laws of friction, limiting equilibrium, limiting friction, co-efficient of friction, angle of friction, angle of repose, and their relationship. 4.2 Equilibrium of bodies on level surface subjected to force parallel to plane and inclined to plane. 4.3 Equilibrium of bodies on inclined plane subjected to force parallel to the plane only. 4.4 Forces acting on ladder (only free body diagram, no numerical). Lecture Using Chalk-Board Video Demonstrations Demonstration Presentations Case Study Hands-on Site/Industry Visit

Unit V

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Unit VI

Simple Stress, Strain and Elastic constants 6.1 Stress, strain, elasticity. Rigid, elastic and plastic bodies. Deformation of elastic body under various forces. 6.2 Type of stresses-normal and tangential, normal tensile and compressive stresses, standard stress strain curve for mild steel bar under tension test, Hook’s law, elastic limit, modulus of elasticity, factor of safety, yield and working stresses. 6.3 Stress and strain in composite section under axial loading. 6.4 Longitudinal and Lateral strain, Poisson’s ratio, biaxial and triaxial stresses, volumetric strain, change in volume, Bulk modulus. 6.5 Shear stress and strain, modulus of rigidity, complementary shear stress and induced tension and compression due to it. 6.6 Relation between modulus of elasticity, modulus of rigidity and bulk modulus. Lecture Using Chalk-Board Video Demonstrations Cooperative Learning Model Demonstration Hands-on

Suggested Micro Project / Assignment

Assignment

• *Solve the examples on calculation of values of MA, VR, ?, Pi, Pf, Wi, Wf etc. for given type of machine. *Solve the examples on calculation of centroid of simple/composite plane figures from given problem statement or figure. *Solve the examples on calculation of centroid of simple/composite plane figures from given problem statement or figure. *Solve the examples on calculation of centroid of simple/composite solid bodies from given problem statement or figure. *Solve the examples on calculation of coefficient of friction, normal reaction, force required to pull the block for given case of frictional bodies (horizontal or inclined plane). *Solve the examples on calculation of unknown forces using Lamis theorem from given problem statement or figure. *Solve the examples on calculation of support reactions of given beam from given problem statement or figure. *Solve the examples on calculation of orthogonal or non orthogonal components of a force. *Solve the examples on calculation of resultant of a force for given force system from given problem statement or figure. *Solve the examples on calculation of moments of a force from given problem statement or figure.

Micro project

• *Prepare a chart showing comparison of centroid and center of gravity for square-cube, rectangle- cylinder, triangle-cone, circle-sphere, semicircle-hemisphere. *Prepare chart of types of forces showing real-life examples. *Prepare chart or flex of laws related to engineering mechanics like law of moment, law of machine, law of parallelogram of forces, Varignon’s theorem of moments etc.. *Collect photographs of specific simple lifting machine and relate these machines with the machines being studied and prepare models of simple lifting machines using tools in “MECHANO” and “MECHANIX” *Prepare chart showing all types of beams having types of support (roller, hinged, fixed) with sketches and corresponding photographs of real life examples. *Prepare models of types of beam subjected to all loads (point load, udl, uvl, moment, couple) with sketches and corresponding photographs of real life examples. *Prepare photographic chart showing real life examples of uses of friction on horizontal (walking, writing, etc.) and inclined plane (slider in gardens, loading of heavy material in trucks etc.).

Laboratory Equipment

For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App
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Learning Materials / Books

1. S. Ramamrutham Engineering Mechanics Dhanpat Rai Publishing Co . 2016 ISBN-13: 978- 9352164271
2. R. S. Khurmi, N.Khurmi Engineering Mechanics S.Chand & Co. New Delhi 2018 ISBN: 978-9352833962
3. S. S. Bhavikatti Engineering Mechanics New Age International Private Limited, Edition 5, ISBN: 9789388818698, New Delhi
4. D. S. Bedi, M. P. Poonia Engineering Mechanics Khanna Publishing ISBN-13:978-9386173263, New Delhi
5. Dr. R. K. Bansal Engineering Mechanics Laxmi Publications, Darya 9788131804094 ganj, Delhi, Edition 6, ISBN 13:

Learning Websites & Portals

1. https://www.engineersrail.com/simple-lifting-machine/ Introduction of simple lifting machine
2. https://www.youtube.com/watch?v=kNypk8GReqM Law of machine and types of machines useful in industry.
3. https://www.youtube.com/watch?v=6u_rjLjv-MY&list=PLOSWwFV98r Introduction of force system with examples
4. https://www.youtube.com/watch?v=RrVuSbCZH8c Verification of Lamis theorem in laboratory
5. https://www.youtube.com/watch?v=tM5hsUiNpGA Calculation of beam reactions for various types of beams
6. https://www.youtube.com/watch?v=RGT1g_lu440 Calculation of coefficient of friction for horizontal and inclined plane
7. https://www.youtube.com/watch?v=wfjLNSfPXAI Centroid of plane/composite figures, C.G. of plane/composite solids
8. https://www.youtube.com/watch?v=v6VTMwxx4oA Centroid of composite figures.

For detail Syllabus of all other subjects of Mining Engineering, K scheme do visit Mining Engineering 3rd Sem Syllabus for K scheme.

For all Mining Engineering results, visit MSBTE Mining Engineering all semester results direct links.