1. First-Year Engineering StudyPack First-Year Engineering StudyPack Magic Marks- India’s Largest Library of Engineering Courseware

2. Magic Marks – Your ultimate destination for high-quality Applied Science video lectures. We cover a comprehensive range of subjects designed to help you excel in your studies and future career. Our expert-curated content ensures that you understand complex concepts with clarity and confidence. Explore the subjects we offer: Basic Electrical and Electronics Engineering Electronics Engineering Electrical Engineering Engineering Mechanics Engineering Graphics Engineering Mathematics-I Engineering Mathematics-II Engineering Physics-I Engineering Physics-II Engineering Chemistry

3. Basic Electrical And Electronics Engineering Basic Electrical and Electronics Engineering provides a foundational understanding of key concepts in both electrical and electronics engineering. This subject covers essential topics such as D.C. Circuit Analysis, A.C. Circuits, Generators and Motors, p-n Junction Diodes, Bipolar and Field Junction Transistors, along with Digital Electronics. The course is structured into the following modules: DC Circuit Analysis and Network Theorems Electrical Resistance and Ohm’s Law Single Phase and Three Phase AC Systems Concepts of Magnetism and Electromagnetism Single Phase Transformer DC Generator and Motor Induction Motor and Synchronous Machines Measuring Instruments P-N Junction Diodes and Their Applications Rectification Zener Diodes Transistor Basics Digital Electronics Basic Electrical And Electronics Engineering

4. Electrical Engineering This course provides fundamental knowledge of DC and AC circuits along with the associated theorems. Students will explore the importance and applications of single-phase and three-phase AC circuits. The course also offers a brief overview of power systems, magnetic circuits, and transformers. Modules: DC Circuit Analysis and Network Theorems Electrical Resistance and Ohm’s Law Steady-State Analysis of Single-Phase AC Circuits Three-Phase AC Circuits Magnetic Circuit and Electromagnetism Single-Phase Transformer DC Machines Three-Phase Induction Motor & Synchronous Machines Electrical Engineering

5. Electronics Engineering This course provides fundamental knowledge of key electronic components and their applications, including transducers, diodes, transistors, amplifiers, and measuring instruments. Understanding these devices is crucial for mastering Silicon Technology and essential principles in Electronics Engineering. Modules: Basics of Electrical Circuits and Networks Concepts of Magnetism and Electromagnetism DC Generator and Motor Induction Motor and Synchronous Machines Measuring Instruments P-N Junction Diodes and Their Applications Rectification Diodes and Transistor Basics Digital Electronics Electronics Engineering

6. Engineering Chemistry Engineering Chemistry offers an introduction to fundamental and applied chemistry concepts, bridging theoretical knowledge with practical applications. This course covers essential topics such as water treatment processes, photochemistry, corrosion, molecular spectroscopy, nano-chemistry, and polymer chemistry. Modules: Water and Its Treatment Photochemistry Corrosion and Its Prevention Spectroscopy and Its Applications Polymers and Reinforced Composites Nano-Chemistry Chemical Bonding and the State of Matter Reaction Kinetics, Phase Rule, and Electrochemistry Structural and Mechanistic Concepts of Organics Analytical Methods and Fuels Engineering Chemistry

7. Engineering Graphics Engineering Graphics focuses on the drawing techniques for 2D and 3D projections of points, lines, objects, surfaces, and solid sections. Drawing is a crucial aspect of communicating engineering principles. This course covers key concepts such as isometric projections, intersection of surfaces, and engineering curves in detail. Modules: Introduction to Engineering Graphics Conic Sections and Engineering Curves Projection Overview and Projection of Points and Straight Lines Projection of Planes and Auxiliary Planes Projection of Solids and Their Sections Development and Intersection of Surfaces Isometric Projection Oblique and Perspective Projection Engineering Graphics

8. Engineering Mathematics-I Engineering Mathematics is a branch of science that focuses on mathematical methods and techniques commonly used in the engineering industry. This subject encompasses a range of topics, including successive differentiation, partial differentiation, multiple integration, and vector calculus, all of which are essential for solving complex engineering problems. Modules: Differential Calculus Matrices Basics of Successive Differentiation Curve Tracing and Curvature of Different Curves Multiple Integration Applications of Multiple Integration Vector Calculus Engineering Mathematics-I

9. Engineering Mathematics-II In this course, we will delve into Differential Equations, covering key topics such as Linear Differential Equations, Ordinary Differential Equations, and Differential Equations of Various Orders. Additionally, we will explore essential concepts in Linear Algebra, including Matrices, Infinite Series, and Complex Numbers. Modules: Ordinary Differential Equations of First Order Linear Ordinary Differential Equations of Second and Higher Order Applications of Ordinary Differential Equations Linear Algebra: Determinants and Matrices Matrix and System of Equations Infinite Series Complex Numbers and Elementary Functions of Complex Variables Engineering Mathematics-II

10. Engineering Mechanics Engineering Mechanics covers the fundamental principles governing the behavior of bodies in motion. This course introduces key concepts such as forces, laws of motion, friction, and the centroid and moment of inertia for various sections. It also includes an exploration of kinematics and kinetics of rigid bodies, providing a foundational understanding of principles essential to mechanical engineering. Modules: Introduction to Engineering Mechanics Two-Dimensional Force System Two-Dimensional Non-Concurrent Force System Centroid and Moment of Inertia Engineering Mechanics

11. Engineering Physics-I Engineering Physics explores the study of matter and its motion, focusing on fundamental concepts in physics that are essential for understanding various physical phenomena. This subject covers a range of topics including relativity, diffraction, polarization, electromagnetic waves, magnetic materials, lasers, fiber optics, and X-rays. Modules: Generation and Propagation of Electromagnetic Waves Types of Magnetic Materials and Their Properties Basics of Superconductors Basics of Lasers and Their Types Fiber Optics and Its Characteristics Concepts of Relativity Synthesis of Nanomaterials and Their Properties Study of Atomic Arrangement in Crystals X-Rays: Types and Characteristics Representation of Particles as Waves Engineering Physics-I

12. Engineering Physics-II Engineering Physics-II delves into advanced topics such as wave mechanics, superconductivity, nano-materials, and the dielectric and magnetic properties of materials. The course also covers the basics of thermodynamics and ultrasonics, providing a comprehensive characteristics and their applications. Modules: Wave Mechanics Superconductivity and Nanomaterials Dielectric and Magnetic Properties of Materials Crystal Physics and X-Rays Thermodynamics Ultrasonics understanding of material Engineering Physics-II

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