BTER Polytechnic 2nd Semester Syllabus - Complete Guide

 📢 हैलो दोस्तों स्वागत है आप सभी का Rajasthan Polytechnic ब्लॉग पर ! यह गरिमा कंवर द्वारा लिखा गया है और यहाँ आपको Polytechnic 2nd Semester से संबंधित विषय (Subjects) का Syllabus मिलेगा ।

तो syllabus जानने से पहले जान लेते है की Polytechnic 2nd Semester में विषय (subjects) कितने है, और फिर Subject wise Syllabus देखेंगे ।

📘 Subjects in Polytechnic 2nd Semester

Polytechnic 2nd Semester में मुख्यतः 5 विषय (Subjects) है :

1️⃣ Mathematics – II
2️⃣ Physics – II
3️⃣ Introduction to IT Systems
4️⃣ Fundamentals of Electrical & Electronics Engineering
5️⃣ Engineering Mechanics

Syllabus of Polytechnic 2nd Semester

Polytechnic 2nd Semester Syllabus PDF - Download

चलिए अब हर subject का syllabus देखते है -

1. Mathematics – II Syllabus📐 

Course Code Course Title 2001 Mathematics-II 

1. DETERMINANTS AND MATRICES
 1.1 Algebra of matrices.
 1.2 Elementary properties of determinants up to 3rd order.
 1.3 Consistency of equations, Crammer’s rule.
 1.4 Inverse of a matrix.
 1.5 Inverse Matrix method to solve a system of linear equations in 3 variables. 

2. INTEGRAL CALCULUS AND DIFFERENTIAL EQUATIONS
 2.1 Integration as inverse operation of differentiation.
 2.2 Simple integration by substitution, by parts and by partial fractions (for linear factors only).
 2.3 Use of formulas
    /  for solving problems where m and n are positive integers.
 2.4 Definition of Differential Equation, Order and Degree of Differential Equation 

3. TWO-DIMENSIONALCO-ORDINATE GEOMETRY
 3.1 General Introduction, Distance formula and section formula.
 3.2 Equation of straight line in various standard forms.
   3.2.1 Slope form, Intercept form, Perpendicular form.
   3.2.2 One-point slope form, Two-point form, General form (without proof).
 3.3 Angle between two lines, Parallel and perpendicular lines.
 3.4 Perpendicular distance formula. 

4. CIRCLE AND CONICS
 4.1 General equation of a circle and its characteristics.
 4.2 To find the equation of a circle, given:
   4.2.1 Centre and radius,
   4.2.2 Three points lying on it
   4.2.3 Coordinates of end points of a diameter 

5. VECTOR ALGEBRA 
 5.1 Definition notation and rectangular resolution of a vector.
 5.2 Addition and subtraction of vectors.    

2. Applied Physics – II Syllabus🧲 

Course Code 2002 Course Title Applied Physics-II

1. WAVE MOTION AND ITS APPLICATIONS
 1.1 Wave motion
 1.2 Transverse and longitudinal waves with examples
 1.3 Definitions of wave velocity, frequency and wave length and their relationship
 1.4 Principle of superposition of waves
 1.5 Stationary waves and Resonance tube
 1.6 Simple Harmonic Motion (SHM):

   1.6.1 Definition.
   1.6.2 Simple harmonic progressive wave and energy transfer 

2. OPTICS

 2.1 Basic optical laws
   2.1.1 Reflection and refraction
   2.1.2 Lens formula, power of lens (only formula)
 2.2 Total internal reflection
   2.2.1 Critical angle and conditions for total internal reflection
   2.2.2 Applications of total internal reflection in optical fiber
 2.3 Optical Instruments
   2.3.1 Simple and compound microscope (introduction and uses) 

3. ELECTROSTATICS AND CURRENT ELECTRICITY
 3.1 Coulombs law, Unit of charge
 3.2 Electric field, Electric lines of force and their properties
 3.3 Electric flux
 3.4 Electric Current and its units
   3.4.1 Direct and alternating current
 3.5 Kirchhoff’s law
 3.6 Wheatstone bridge and its applications (meter bridge)
 3.7 Concept of terminal potential difference and Electro motive force (EMF) 

4. ELECTROMAGNETISM
 4.1 Magnetic field and its units
   4.1.1 Magnetic intensity
   4.1.2 Magnetic lines of force
   4.1.3 Magnetic flux and units
 4.2 Concept of electromagnetic induction
   4.2.1 Faraday’s Laws and Lenz’s law

 4.3 Magnetic Force on moving charge
   4.3.1 Force on current carrying conductor
   4.3.2 Force on rectangular coil placed in magnetic field
 4.4 Moving coil galvanometer:-principle, construction and working
   4.4.1 Conversion of a galvanometer into ammeter and voltmeter 

5. SEMICONDUCTOR AND MODERN PHYSICS

 5.1 Energy bands in solids
 5.2 Types of materials (insulator, semi-conductor, conductor)
 5.3 p-n junction
   5.3.1 Junction diode and V-I characteristics
   5.3.2 Types of junction diodes (Zener and Photo Diode)
   5.3.3 Diode as rectifier – half wave and full wave rectifier (centre taped)
 5.4 Lasers:
   5.4.1 Energy levels, ionization and excitation potentials
   5.4.2 Spontaneous and stimulated emission
   5.4.3 Population inversion
   5.4.4 Pumping methods
   5.4.5 Types of lasers ( Ruby and He-Ne Laser)
   5.4.6 Laser characteristics
   5.4.7 Engineering and medical applications of lasers
   5.5 Nanoscience and Nanotechnology:
 5.5 Nanoscience and Nanotechnology:
   5.5.1 Introduction only

3. Introduction to IT Stytems Syllabus💻 

Course Code 2003 Course Title Introduction to IT Systems

1. BASIC COMPUTER & INTERNET SKILLS
 1.1 General understanding of various computer components: Block Diagram of Computer
   1.1.1 CPU, Memory, Display, Keyboard, Mouse
   1.1.2 HDD and Pen Drive
   1.1.3 Peripheral Devices (Printers, Scanners, Web camera & Barcode Reader)
 1.2 Computer Languages: Machine, Assembly & High-level Language
 1.3 Computer & Communication: Meaning of Web Address, URL, IP address, E-mail
 1.4 Awareness about Digital India portals (state and national portals) and college portals. 

2. OPERATING SYSTEMS
 2.1 Introduction and Definition Operating Systems
 2.2 Brief Introduction to Types of Operating Systems
 2.3 OS Installation:
   2.3.1 MS Windows
 2.4 Brief Introduction to Unix Shell 

3. BASICS OF WEB DEVELOPMENT
 3.1 CSS: Introduction
   3.1.1 Font Attributes
   3.1.2 Colour, Background
 3.2 Making basic personal webpage 

4. OFFICE TOOLS
 4.1 Open Office Writer:
   4.1.1 Writer Interface
   4.1.2 Starting, Opening, Saving, Closing & Printing a document
   4.1.3 Selecting, Cutting, Pasting, Finding & Replacing a text
   4.1.4 Formatting Paragraph
   4.1.5 Checking Spelling & Autocorrect
 4.2 Open Office Spreadsheet (Calc):
   4.2.1 Spreadsheets, Sheets & Cell
   4.2.2 Starting, Opening, Saving, Closing, Printing a Spreadsheet
 4.3 Open Office Impress:
   4.3.1 Adding Animation in Slide
   4.3.2 Printing Slide Show 

5. INFORMATION SECURITY BEST PRACTICES
 5.1 Desktop & Smartphone security: Password, pattern lock, Two Step authentication (OTP), Biometric Authentication
 5.2 Computer Viruses: Scanning & Removing
 5.3 Guidelines for:
   5.3.1 Setting up a Secure password
   5.3.2 Wi-fi security

4. Fundamentals of Electrical and Electronics Engineering Syllabus⚡ 

Course Code 2004 Course Title Fundamentals of Electrical and Electronics Engineering

1. OVERVIEW OF ELECTRONIC COMPONENTS & SIGNALS
 1.1 Passive components and their applications
    1.1.1 Resistors, type of resistors
    1.1.2 Capacitors, type of capacitor
    1.1.3 Inductors , type of inductor
 1.2 Types of waveform
    1.2.1 Sinusoidal waveform as alternating Voltage Signal v(t) = Vmsin(wt)
    1.2.2 Non Sinusoidal alternating waveforms (triangular, rectangular, square) as voltage signals 

2. OVERVIEW OF BASIC (ANALOG) & DIGITAL ELECTRONICS
 2.1 Introduction to Semi-Conductors
    2.1.1 Different Semiconductor materials (Si, Ge)
 2.2 Doping (impurities) in Semiconductors
    2.2.1 Intrinsic and Extrinsic Semiconductor
    2.2.2 Atomic structure of Intrinsic and Extrinsic Semiconductor
 2.3 Conductivity
    2.3.1 carrier transport: diffusion & drift current, mobility, resistivity
    2.3.2 generation and recombination of charge carriers, PN junction
 2.4 Active components and their application
    2.4.1 Diodes, VI Characteristics, forward and reverse bias
    2.4.2 Bipolar Junction Transistors (BJT), PNP and NPN BJT, Characteristics.
 2.5 Boolean Algebra
    2.5.1 Logic Gates (NOT, AND, OR, NAND, NOR, EX-OR, EX-NOR)
    2.5.2 Binary code of a Decimal Number 

3. ELECTRIC AND MAGNETIC CIRCUITS:
 3.1 EMF, Current, Potential Difference, Power and Energy, Ohm’s Law, Combination of resistances
 3.2 M.M.F, magnetic flux
 3.3 Analogy between electric and magnetic circuits 

4. A.C. CIRCUITS:
 4.1 Introduction to AC waveform and terminology
    4.1.1 Cycle
    4.1.2 Frequency
    4.1.3 Time Period
    4.1.4 Amplitude
    4.1.5 Angular velocity
    4.1.6 RMS value
    4.1.7 Average value
    4.1.8 Form Factor

5. TRANSFORMERS
 5.1 Principal of operation, emf equation, Construction.
 5.2 Principle of single phase transformer, transformation ratio and step up and step down transformers

5. Engineering Mechanics Syllabus⚙️

Course Code 2005 Course Title Engineering Mechanics

1. BASICS OF MECHANICS AND FORCE SYSTEM
 1.1 Significance and relevance of Mechanics
    1.1.1 Applied mechanics
    1.1.2 Statics
    1.1.3 Dynamics
 1.2 Definitions of Space, time, mass, particle, flexible body and rigid body
 1.3 Scalar and vector quantity ,Units of measurement (SI units)
    1.3.1 Fundamental units
    1.3.2 Derived units
 1.4 Force
    1.4.1 Unit
    1.4.2 Representation as a vector and by Bow’s notation
    1.4.3 Characteristics and effects of a force
 1.5 Law of parallelogram 

2. EQUILIBRIUM
 2.1 Equilibrium and Equilibrant
    2.1.1 Free body and Free body diagram
 2.2 Lami’s Theorem – statement and explanation
    2.2.1 Application for various engineering problems
 2.3 Types of beam
 2.4 Types of supports (simple, hinged, roller and fixed)
 2.5 Types of loads acting on beam (vertical and inclined point load, uniformly distributed load, couple) 

3. FRICTION
 3.1 Friction and its relevance in engineering
    3.1.1 Types and laws of friction
    3.1.2 Limiting equilibrium
    3.1.3 Limiting friction
    3.1.4 Co-efficient of friction
    3.1.5 Angle of friction (only theoy)
    3.1.6 Angle of repose (only theoy)
    3.1.7 Relation between co-efficient of friction and angle of friction
 3.2 Equilibrium of bodies on level surface subjected to
    3.2.1 Force parallel to plane
    3.2.2 Force inclined to plane 

4. CENTROID AND CENTRE OF GRAVITY
 4.1 Center of gravity of : Square , Rectangle, Triangle, Circle, Semi-circle and Quarter circle(No derivation)
 4.2 Centroid of composite figures composed of not more than three geometrical figures
 4.3 Centre of Gravity of Cube, Cuboid, Cone, Cylinder, Sphere and hemisphere (No derivation) 

5. SIMPLE LIFTING MACHINE
 5.1 Simple lifting machine
    5.1.1 Related terms: load, effort, mechanical advantage
    5.1.2 Applications and advantages.
    5.1.3 Velocity ratio
    5.1.4 Efficiency of machines
 5.2 Law of machine
 5.3 Ideal machine
    5.3.1 Friction in machine
    5.3.2 Maximum Mechanical advantage and efficiency

📌इस ब्लॉग में Polytechnic 2nd Semester का सभी subjects का syllabus कवर किया गया है । 
यह ब्लॉग पोस्ट Garima Kanwar द्वारा Rajasthan Polytechnic पर लिखा गया है । बने रहिए ब्लॉग के साथ भविष्य में Study material , Notes , PDFs और Video  Lectures के लिए । Keep Learning and Growing🚀

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