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    Moodle is an open-source Learning Management System (LMS) that provides educators with the tools and features to create and manage online courses. It allows educators to organize course materials, create quizzes and assignments, host discussion forums, and track student progress. Moodle is highly flexible and can be customized to meet the specific needs of different institutions and learning environments.

    Moodle supports both synchronous and asynchronous learning environments, enabling educators to host live webinars, video conferences, and chat sessions, as well as providing a variety of tools that support self-paced learning, including videos, interactive quizzes, and discussion forums. The platform also integrates with other tools and systems, such as Google Apps and plagiarism detection software, to provide a seamless learning experience.

    Moodle is widely used in educational institutions, including universities, K-12 schools, and corporate training programs. It is well-suited to online and blended learning environments and distance education programs. Additionally, Moodle's accessibility features make it a popular choice for learners with disabilities, ensuring that courses are inclusive and accessible to all learners.

    The Moodle community is an active group of users, developers, and educators who contribute to the platform's development and improvement. The community provides support, resources, and documentation for users, as well as a forum for sharing ideas and best practices. Moodle releases regular updates and improvements, ensuring that the platform remains up-to-date with the latest technologies and best practices.

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Available courses

The aim of the course is to make the students aware of the basic principles in science leading to latest emerging technologies. Electronics industry is an evolving field based upon the advancements in the Semiconductor Physics. Spectroscopy and Nuclear Physics are another emerging session deal with interactions between matter and radiation and that between the nuclei and elementary particles respectively.
The first module of the course introduces the students to basic structure of matter and its interaction with radiation. The second module gives an introductory idea about Quantum Mechanics. Third module reveals the basic idea of semiconductor and wave shaping devices.
The course also covers the nuclear disintegration, elementary particles and particle accelerators.
Course Outcomes:

Spectroscopy This course covers the nature of interaction between matter and radation

Syllabus

Vector atom model and quantum numbers - spectroscopic terms - Spin-orbit interaction
derivation of spin-orbit interaction energy, extension to penetrating orbits; fine structure in
sodium atom, selection rules. Lande g factor - Normal and anomalous Zeeman effects,
Paschen–Back effect and Stark effect in one electron system, quadratic Stark effect in
potassium doublet - Coupling schemes - L S and j j coupling- spectroscopic terms arising
from two valence electrons; terms arising from two equivalent s-electrons, vector diagram,
examples- sp and pd electrons, derivation of interaction energy, Hund’s rule &Lande interval
rule. Hyperfine structure and width of spectral lines (Qualitative ideas only)