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F.E Complete Package (Mumbai University) cover

F.E Complete Package (Mumbai University)

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Instructor: Niraj Singh

Language: English/Hindi

Valid Till: 2021-12-31

₹30000 40% OFF

₹18000

This package includes complete First Year Engineering Courses for Mumbai University

  • Applied Mathematics - 1, no doubt, is a tool in the hands of an engineer. You have already learned some concepts of Physics, Biology, Chemistry, Business, Computer Science. Applied Mathematics is an application of Mathematical methods learned in these subjects. Thus Applied Mathematics is a fusion of Mathematical science and peculiar knowledge of so many streams in Engineering. Module 1 explains the fundamentals definition and different types of operations on Complex Numbers. From module 2 onward we will learn different types of Differentiation, Homogeneous functions, Maxima-Minima, and expansion of functions. After this course will prove a glimpse of Matrices, Linear Equations, and their applications in Engineering. Finally, we will conclude this course with Algebraic and Transcendental Equations

  • Engineering Mechanics is the area of physics concerned with the motions of physical objects, more specifically the relationships among force, matter, and motion. Forces applied to objects result in displacements or changes of an object's position relative to its environment. It can also be defined as a branch of science which deals with the motion of and forces on bodies, not in the quantum realm. The field is today less widely understood in terms of quantum theory.
    Objectives:
    1. To familiarize the concept of equilibrium and friction
    2. To study and analyze motion of moving particles/bodies.
    Outcomes:
    1. Illustrate the concept of force, moment and apply the same along with the concept of equilibrium in two and three dimensional systems with the help of FBD.
    2. Demonstrate the understanding of Centroid and its significance and locate the same.
    3. Correlate real-life application to a specific types of friction and estimate required force to overcome friction.
    4. Establish relation between velocity and acceleration of a particle and analyze the motion by plotting the relation
    5. Illustrate different types of motions and establish Kinematic relations for a rigid body
    6. Analyze particles in motion using force and acceleration, work-energy, and impulse momentum principles
    What we will cover:
    1. System of Coplanar Forces
    2. Resultant of Coplanar and Non-coplanar Forces
    3. Centroid
    4. Equilibrium of System of Coplanar Forces
    5. Equilibrium of Beams
    6. Friction
    7. Kinematics of Particles
    8. Kinematics of Rigid Body
    9. Kinetics of a Particle
    10. Kinetics of a Particle: Work & Energy
    11. Kinetics of a Particle: Impulse & Momentum

  • Basic Electrical Engineering is an engineering discipline concerned with the study, design and application of equipment, devices and systems which use electricity,electronics, and electromagnetism. Electrical engineering is now divided into a wide range of fields, including computer engineering, systems engineering, power engineering, telecommunications, radio-frequency engineering, signal processing, instrumentation, and electronics. Many of these disciplines overlap with other engineering branches, spanning a huge number of specializations including hardware engineering, power electronics, electromagnetics and waves, microwave engineering, nanotechnology, electrochemistry, renewable energies, mechatronics, and electrical materials science
    Objectives:
    1. To provide knowledge on fundamentals of D.C. circuits and single phase and three phase AC circuits and its applications
    2. To inculcate knowledge on the basic operation and performance of 1-Φ transformer
    3. To provide knowledge on fundamentals of DC and AC machines.
    Outcomes:
    1. Apply various network theorems to determine the circuit response / behavior
    2. DEvaluate and analyze 1-Φ circuits.
    3. Evaluate and analyze 3-Φ AC circuits
    4. Understand the constructional features and operation of 1-Φ transformer
    5. Illustrate the working principle of 3-Φ machine.
    6. Illustrate the working principle of 1-Φ machines
    What we will cover:
    1. DC circuits
    2. AC circuits
    3. Generation of Three-Phase Voltages
    4. Transformers
    5. Electrical Machines
    6. Principle of operation of Single-Phase induction motors
  • Applied Mathematics - 2 course is aimed to develop the basic Mathematical skills of engineering students that are imperative for effective understanding of engineering subjects. The topics introduced will serve as basic tools for specialized studies in many fields of engineering and technology.

    Learners will be able learn....

    1. Solve various types of First Order differential equation
    2. Solve various types of Higher Order Differential equation
    3. Illustrate the concepts of Beta and Gamma function, DUIS and rectification
    4. Apply the concepts of Double integral
    5. Apply the concept of Triple integral
    6. Apply the principles of Numerical Method for solving differential equation and numerical integration analytically
  • Engineering Graphics is the art of manipulation of designs of a variety of components, especially those related to engineering. It primarily consists of sketching the actual component, for example, a machine, with its exact dimensions. The scale of dimensions is suitably adjusted so as to properly fit within the contours of the drawing sheet. In some cases, depending on the discipline, there are areas of particular focus, such as in the case of Structural Engineering. Another consideration is in regards to the units of measure used; these could be not only Metric or Imperial but also the way these are noted is relevant because it will also reflect the precision of a dimension

    Learners will be able learn....

    1. Introduction to Engineering Graphics
    2. Engineering Curves
    3. Projection of Points and Lines
    4. Projection of Planes
    5. Projection of Solids
    6. Section of Solids
    7. Orthographic and Sectional Orthographic Projections
    8. Missing Views
    9. Isometric Views
  • C Programming: C is a powerful general-purpose programming language. C programming is a general-purpose, procedural, imperative computer programming language developed in 1972 by Dennis M. Ritchie at the Bell Telephone Laboratories. Our C tutorials will guide you to learn C programming one step at a time with the help of examples. Learn C Tutorial with programming examples for beginners and professionals covering concepts, control statements, C arrays, C pointers, C structures, C union, C strings and more. This course will give you a full introduction into all of the core concepts in the C programming language. Follow along with the tutorial video and you'll be able to solve many day to day problems using C program. Along with video lectures we have Live tests, Quizes, Live lectures, discussion forum and much more...
    So why do you need to wait just grab this opportunity and start learning right now!!!

So why do you need to wait just grab this opportunity and start learning right now!!!

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