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Introducing Google Gemini: A New Era of AI

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  On December 6, 2023, Google announced the launch of Gemini, a new AI model that is said to be the most capable and versatile AI model ever created. Gemini is the result of years of research and development by Google's DeepMind team, and it is poised to revolutionize the way we interact with technology. What is Gemini? Gemini is a large language model (LLM) that has been trained on a massive dataset of text and code. This dataset includes everything from books and articles to code repositories and social media posts. As a result, Gemini is able to understand and generate human language with a high degree of fluency and accuracy. In addition to its language capabilities, Gemini is also able to process and understand images and videos. This makes it possible for Gemini to perform a wide range of tasks, such as: Generating realistic and creative text formats, like poems, code, scripts, musical pieces, email, letters, etc. Translating languages Answering your questions in an info

๐€๐๐๐ข๐ญ๐ข๐ฏ๐ž ๐Œ๐š๐ง๐ฎ๐Ÿ๐š๐œ๐ญ๐ฎ๐ซ๐ข๐ง๐ - ๐•๐š๐ญ ๐ฉ๐ก๐จ๐ญ๐จ๐ฉ๐จ๐ฅ๐ฒ๐ฆ๐ž๐ซ๐ข๐ณ๐š๐ญ๐ข๐จ๐ง- ๐๐ฅ๐จ๐  ๐Ÿ

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What is Vat Photopolymerization? Imagine dipping a brush into a vat of liquid plastic and then using light to solidify the plastic into desired shapes, layer by layer. That's the basic principle behind vat photopolymerization. This technology utilizes a vat containing liquid photopolymer resin, which is essentially a mixture of monomers, oligomers, and a photoinitiated. When exposed to light, the photoinitiated triggers the polymerization reaction, causing the monomers and oligomers to link together and form a solid polymer structure. [1] Vat photopolymerization[2] Process Steps:๐Ÿ‘ˆ Model Preparation:  3D models are created using CAD software and converted into specific file formats compatible with the printing machine. Vat Filling:  The printing platform is lowered into the vat filled with liquid photopolymer resin. Layer-by-Layer Curing:  A light source (laser in SLA, projector in DLP) projects light onto the surface of the resin, selectively curing the desired areas based on t

Additive Manufacturing: A Clear Cut View- BLOG 1

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Additive Manufacturing(AM) is the process of fabricating the 3D model into required object by depositing the material layer by layer , also known as 3D printing . It is the  is a revolutionary technology that is rapidly changing the way we design and manufacture products. Unlike traditional subtractive methods that remove material from a solid block, AM builds objects layer by layer using a variety of materials, including plastics, metals, ceramics, and even living cells. Points to be noted for 3D Printing: Design the model convert the model into STL file Slicing Tessellation Type of Additive Manufacturing(AM) STL File: The STL file format is the key component of this procedure. The 3D object is represented in this file as a mesh-like arrangement of triangular facets . The surface geometry of the item is defined by the information that each facet contains about its points and normal vector. Because so many different 3D design and slicing programs use STL files, they are an esse

Additive Manufacturing: A Paradigm Shift in Product Creation

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Additive manufacturing (AM) , often referred to as 3D printing, has emerged as a transformative technology, revolutionizing the world of product design and fabrication. Unlike conventional manufacturing methods that involve removing material from a solid block, AM constructs objects by meticulously adding material layer by layer. This innovative approach offers a plethora of advantages, including: Design Flexibility๐Ÿ‘ˆ : AM empowers designers to create intricate geometries that would be impossible or impractical to produce using traditional techniques. This newfound design freedom opens up a realm of possibilities for innovative products with enhanced functionality and aesthetics. Reduced Material Waste๐Ÿ‘ˆ : AM promotes sustainability by minimizing material wastage during the fabrication process. Unlike traditional methods that generate significant scrap material, AM utilizes only the precise amount of material required to create the desired product, reducing environmental impact.

Research and Development in India๐Ÿค”๐Ÿค”๐Ÿค”: Encouraging Rural Students to Pursue Higher Education and Research๐Ÿค”

  Research and Development in India๐Ÿค”๐Ÿค”๐Ÿค”: Encouraging Rural Students to Pursue Higher Education and Research๐Ÿค” Nurturing Innovation from the Grassroots ๐Ÿ‘‰Introduction๐Ÿ‘ˆ India is a country with a rich history and culture, and a rapidly growing economy. However, the country also faces a number of challenges, including poverty, illiteracy, and inequality. Research and development (R&D) is essential for addressing these challenges and creating a more equitable and prosperous future for all Indians. One of the most important areas for R&D in India is rural development. Rural communities make up over 70% of the country's population, and they face a number of unique challenges , such as lack of access to education, healthcare, and infrastructure. R&D can help to address these challenges and improve the lives of rural people. ๐Ÿ‘‰The Role of Engineering Colleges in Rural Development๐Ÿ‘ˆ Engineering colleges play a vital role in R&D for rural development. These colleges ca

๐“๐ก๐ž ๐’๐ข๐ญ๐ฎ๐š๐ญ๐ข๐จ๐ง ๐จ๐Ÿ ๐Œ๐ž๐œ๐ก๐š๐ง๐ข๐œ๐š๐ฅ ๐„๐ง๐ ๐ข๐ง๐ž๐ž๐ซ๐ข๐ง๐  ๐‰๐จ๐›๐ฌ: ๐‚๐ก๐š๐ฅ๐ฅ๐ž๐ง๐ ๐ž๐ฌ, ๐Ž๐ฉ๐ฉ๐จ๐ซ๐ญ๐ฎ๐ง๐ข๐ญ๐ข๐ž๐ฌ, ๐š๐ง๐ ๐๐ซ๐จ๐›๐ฅ๐ž๐ฆ

  For thousands of years, mechanical engineering has been a fundamental component of human brilliance and advancement, propelling developments in a wide range of industries, including manufacturing, energy, transportation, and many more. However, because of economic crises, globalization, and technical breakthroughs, the field of mechanical ๐Ÿ‘ˆ engineering employment is going through a period of tremendous change. Challenges Mechanical engineers face several challenges in today's job market. One of the most prominent is the increasing automation and digitization of manufacturing processes. As machines and software take over repetitive tasks, the demand for traditional mechanical engineers who specialize in manual design and production is decreasing. Another challenge is the growing emphasis on interdisciplinary skills. Mechanical engineers now need to possess a broader range of knowledge and expertise, encompassing areas such as electronics, computer science, and data analytics. Thi