Abaqus Assignments Made Easy: Unveiling the Top 5 Online Resources for Help

As a passionate mechanical engineering student, I have often found myself grappling with the complexities of Abaqus assignments. The world of finite element analysis can be both intriguing and overwhelming, demanding a deep understanding of the software and its applications. Thankfully, I've discovered a lifeline in the form of online Abaqus assignment help that have made my significantly more manageable. In this blog post, I'll share my top 5 online resources that have proven to be invaluable in navigating the challenges of Abaqus assignments.

Mechanical Engineering Assignment Help

The first resource on my list is a game-changer for anyone seeking Abaqus assistance. Mechanical Engineering Assignment Help provides specialized support for students tackling the intricacies of Abaqus assignments. The platform boasts a team of experienced professionals with a profound understanding of finite element analysis. What sets this resource apart is its commitment to delivering solutions tailored to individual assignment requirements. The experts at Mechanical Engineering Assignment Help have been instrumental in clarifying my doubts, providing step-by-step solutions, and enhancing my overall comprehension of Abaqus.

AssignmentPedia

AssignmentPedia is another gem in the realm of online resources for mechanical engineering students. The platform offers comprehensive assistance with Abaqus assignments, covering a wide array of topics within finite element analysis. What I appreciate most about AssignmentPedia is the accessibility of its services. The user-friendly interface makes it easy to submit assignments, receive timely responses, and track progress. The expert guidance I've received from AssignmentPedia has been instrumental in elevating the quality of my Abaqus submissions.

Visit: https://www.assignmentpedia.com/mechanical-engineering-assignment-help.html

TheAssignmentHelper

For those seeking personalized attention and tailored solutions, TheAssignmentHelper is a go-to resource. This platform takes a collaborative approach to Abaqus assignments, ensuring that students actively participate in the learning process. TheAssignmentHelper's team comprises experts who not only provide solutions but also explain the underlying principles, fostering a deeper understanding of Abaqus concepts. Through one-on-one interactions and a focus on conceptual clarity, TheAssignmentHelper has played a pivotal role in enhancing my proficiency in using Abaqus for mechanical engineering applications.

Visit: https://www.theassignmenthelper.com/mechanical-engineering-assignment-help/

EduAssignmentHelp

EduAssignmentHelp is a versatile resource catering to the diverse needs of mechanical engineering students. When it comes to Abaqus assignments, this platform stands out for its commitment to delivering accurate and well-documented solutions. The experts at EduAssignmentHelp possess a knack for simplifying complex concepts, making Abaqus more approachable for students at various skill levels. Additionally, the platform offers a range of resources, including tutorials and reference materials, making it a comprehensive hub for all things related to Abaqus in mechanical engineering.

Visit: https://www.eduassignmenthelp.com/mechanical-engineering-assignment-help

TakeMyClassCourse

For those juggling multiple responsibilities and finding it challenging to keep up with their mechanical engineering coursework, TakeMyClassCourse provides a unique solution. This platform allows students to delegate their Abaqus assignments to experts who handle the tasks on their behalf. While some may view this as a last resort, I've found it to be a practical option during particularly hectic periods. TakeMyClassCourse has a pool of experienced professionals who ensure that assignments are completed with precision and submitted on time, offering a much-needed reprieve for students with demanding schedules.

Visit: https://www.takemyclasscourse.com/take-my-mechanical-engineering-class/

In conclusion, navigating Abaqus assignments in mechanical engineering can be a daunting task, but with the right online resources, it becomes a manageable and even enjoyable journey. The platforms mentioned above have not only provided me with expert guidance but have also significantly contributed to my overall understanding of Abaqus and its applications in the field of mechanical engineering. Whether you prefer hands-on collaboration or a more streamlined assistance approach, these resources offer a spectrum of options to cater to your individual learning preferences. As you embark on your Abaqus assignments, remember that you're not alone—these online resources are here to make your journey smoother and more successful.

What Are the Top Useful Software Tools That Every Computer Science Engineering Student Should Know?

BTech students face a unique set of challenges as they navigate their academic journey, requiring access to a variety of resources and tools to enhance their learning experience. Below is a comprehensive overview of crucial resources and tools that every BTech student should be aware of, categorized into software, online courses, study materials, hardware tools, and networking opportunities.

Software Tools

1. Engineering Software

AutoCAD: Essential for computer-aided design (CAD), widely used in architecture and engineering fields.

MATLAB: A programming environment for numerical computing, crucial for algorithm development and data analysis.

SolidWorks: A powerful 3D CAD software used for modeling and simulation in mechanical engineering.

ANSYS: Used for finite element analysis (FEA) and computational fluid dynamics (CFD), important for simulations in various engineering disciplines.

2. Coding and Development Tools

Atom: An open-source code editor that supports various programming languages, ideal for software development projects.

GitHub: A platform for version control and collaboration on coding projects, allowing students to share their work and contribute to open-source projects.

3. Scientific Calculators

A reliable scientific calculator like the Texas Instruments TI-84 or Casio FX-991EX is vital for handling complex calculations encountered in engineering courses.

Online Courses and Learning Platforms

1. MOOCs (Massive Open Online Courses)

Coursera: Offers a range of courses from top universities on various engineering topics, often free or at a low cost.

edX: Provides access to high-quality courses from institutions like Harvard and MIT, covering diverse engineering fields.

Khan Academy: Features free tutorials and exercises in mathematics and science, beneficial for foundational knowledge.

2. Specialized Learning Resources

MIT OpenCourseWare: Free access to course materials from MIT’s engineering programs, enabling self-paced learning.

NPTEL (National Programme on Technology Enhanced Learning): An initiative by IITs providing video lectures and course materials tailored for Indian students.

Study Materials

1. Textbooks and Reference Books

Core textbooks covering essential subjects like calculus, physics, and specific engineering disciplines are crucial. Students should also seek additional reference books to deepen their understanding.

2. Online Study Resources

Websites such as eGFI (Engineering Go For It) provide engaging projects and career information that can supplement classroom learning.

Hardware Tools

1. Personal Computer or Laptop

A reliable laptop is essential for running engineering software, completing assignments, and conducting research.

2. Professional Toolkits

Depending on their specialization:

Mechanical engineers may require wrenches and screwdrivers.

Electrical engineers might need resistor kits and breadboards.

Civil engineers could benefit from laser levels and measuring tapes.

Networking Opportunities

1. Professional Organizations

Joining organizations such as IEEE (Institute of Electrical and Electronics Engineers) or ASME (American Society of Mechanical Engineers) can provide networking opportunities, access to resources, and professional development.

2. Study Groups

Forming or joining study groups can enhance learning through collaboration, accountability, and resource sharing among peers.

Conclusion

In Arya College of Engineering & I.T. BTech students have access to a plethora of resources that can significantly enhance their academic experience. From essential software tools like AutoCAD and MATLAB to online learning platforms such as Coursera and edX, these resources are invaluable in helping students succeed in their studies. Furthermore, having the right hardware tools, engaging with professional organizations, and utilizing study groups can create a well-rounded educational experience that prepares them for future challenges in the engineering field. By leveraging these resources effectively, BTech students can maximize their learning potential and build a strong foundation for their careers.

Master Abaqus CDP Learn Structural Analysis with Abaqus Online Training

As in most engineering disciplines, it is crucial with structural engineering to have the correct tools to optimise the design. Today, one of the most popular FEA software among engineers is Abaqus, primarily known for its important features like structural analysis. Abaqus CDP (Concrete Damage Plasticity) is a powerful feature of the software that helps engineers predict the behaviour of concrete under stress, including cracking, plasticity, and failure. If you want to improve your skills in structural analysis and finite element analysis (FEA), Abaqus training online can help you to increase your expertise to the next level.

Why Abaqus is Vital to Structural Analysis 

Abaqus is used in Structural Analysis to determine how structures behave under different loads such as static, dynamic and temperature loads. With Abaqus CDP, engineers can simulate concrete behaviour in structures like buildings and bridges, ensuring they remain safe and strong. The Abaqus CDP model helps accurately simulate concrete cracking and failure, which is important when designing stronger concrete beams and prestressed concrete columns. This makes wiser decisions, helps engineers avoid mistakes, and enhances project performance.

Many of the capabilities of the Abaqus software exceed the functionality of classical engineering applications. They found that it offers practical uses in structural analysis because it allows one to perform a finite element analysis of material behaviour. This training will equip you with useful knowledge if you are interested in learning how to go about with Abaqus for structural analysis.

What Will You Learn in Abaqus Structural Analysis Training?

By enrolling in the Abaqus structural analysis training program, you'll gain real-world hands-on experience using this online software. Here's what you can expect from the program:

Material Behavior Simulation: Learn how to experiment and do an analysis that reveals elastic and plastic deformation under the stress of different materials.

Concrete Damage Plasticity (CDP) Model: Learn ways of modelling concrete cracking, damage and failure under varying loading conditions in Abaqus CDP.

Modeling Concrete Structures: Read more on stronger concrete and prestressed concrete structures and the design of beams and columns.

Mesh Convergence: Learn how to enhance the consistency of your results by making more precise mesh concepts in the Abaqus software.

Static and Dynamic Load Analysis: Control the forces for structures of static and dynamic loadings in correlation with Abaqus for structural analysis.

In this course, you will explore live online classes, professional trainer support, and practical assignments to master the best practices in Abaqus software.

Why Should Abaqus Be Learned by Structural Engineers?

Comprehensive Knowledge of Abaqus: Learn how to simulate material behaviour in your designs using Mastering Abaqus CDP.

Real-World Application: Learn the practical application of Abaqus for conducting structural analysis in structures based on real-life projects particularly the analysis of stronger concrete and prestressed concrete structures.

Career Advancement: Abaqus training is possible online, and doing this will equip you with tools essential in the highly demanding structural engineering sector.

Cost-Effective Designs: It was deduced that the utilization of the Abaqus enables engineers to arrive at superior decisions in actual structural Analysis design projects, especially in relation to the conservation of unnecessary material usage and overall project cost.

Start Learning with Pigso Learning and Boost Your Career

At Pigso Learning, we have developed the Abaqus CDP training resources that are suitable for practising engineers who want to learn the next level of structural analysis. Beginners or those who already have some knowledge, we provide the best Abaqus online courses to enhance your knowledge.

In our courses, our instructors have industry experience to provide you with quality training information in Abaqus software. More than that, at the end of the course, with positive results, you will be awarded a certificate in this field, enhancing your chances of getting promotions at work.

Ready to take your career to the next level? Enroll in our Abaqus Structural Analysis Training Today!

If you have had an opportunity to attend Pigso Learning courses and you are ready, then you are set to become an expert in Abaqus CDP and structural analysis. By registering with our Abaqus courses online you will acquire practical skills and knowledge to solve various engineering problems. 

Follow this to learn more about Abaqus Structural Analysis Training and step-by-step guide on a path of being an expert in Structural Analysis using Abaqus software.

Mastering Ansys Assignments: Your Ultimate Q&A Guide

When tackling complex Ansys assignments, having a clear understanding and the right approach can make all the difference. At Mechanical Engineering Assignment Help, we recognize the significance of expert guidance in achieving success. That's why we provide top-notch Ansys Assignment Help to support you through your studies. This Q&A guide will address common questions and offer insights to help you excel in your Ansys assignments.

Q1: What is Ansys, and why is it important for mechanical engineering assignments?

A1: Ansys is a powerful simulation software used extensively in mechanical engineering to perform finite element analysis (FEA), computational fluid dynamics (CFD), and other simulations. It helps engineers predict how products will perform under various conditions, which is crucial for designing and optimizing mechanical components. Mastery of Ansys is vital for accurately completing assignments and real-world engineering tasks.

Q2: How do I get started with Ansys for my assignment?

A2: To get started with Ansys, first familiarize yourself with its interface and basic functionalities. Begin by defining your project requirements and setting up the geometry of your model. Next, apply the necessary boundary conditions, mesh the model, and run simulations. Ansys offers various tutorials and help guides that can assist you in learning these steps.

Q3: What are the common challenges students face with Ansys assignments?

A3: Common challenges include setting up accurate boundary conditions, meshing issues, and interpreting simulation results. Students may also struggle with complex geometry or understanding how to apply specific material properties. Seeking help from experienced professionals or utilizing detailed guides can help overcome these difficulties.

Q4: How can I ensure accurate results in my Ansys assignment?

A4: To ensure accuracy, it is crucial to use proper meshing techniques and verify boundary conditions. Validate your model by comparing results with theoretical calculations or experimental data. Regularly check for convergence and refine the mesh as needed to improve solution accuracy.

Q5: What resources are available if I need further assistance with Ansys assignments?

A5: Numerous resources are available for additional help with Ansys assignments. Online forums, official Ansys documentation, and tutorials can provide valuable insights. For more personalized support, consider consulting with experts or using dedicated assignment help services like Mechanical Engineering Assignment Help.

Q6: Can I get help with my Ansys assignment from Mechanical Engineering Assignment Help?

A6: Absolutely! At Mechanical Engineering Assignment Help, we offer expert assistance with all aspects of Ansys assignments. Whether you need help with model setup, simulations, or result interpretation, our team of experienced professionals is here to guide you every step of the way.

Let our experts help you with your Solidworks 3D CAD assignment while you focus on more important things. Get in touch with us for Parts & Assembly Modelling, Motion Study, Finite Element Analysis, Sufrace Modelling,Linear Stress Analysis & more. We deliver urgent orders within 24 hours!

Master Geotechnical Analysis with Plaxis Software Training Online

Geotechnical engineering is a valuable component in the infrastructure field since it determines the stability of construction infrastructure. Engineers use comprehensive software like the Plaxis software for doing finite element analysis, modeling soil structure interaction, and evaluating the scopes of foundations. Those interested in sharpening their knowledge of Plaxis 2D Software and Plaxis 3D software can apply for one of the Plaxis training online courses and thus gain the skills to solve various geotechnical situations.

Why Learn Plaxis Software?

Plaxis is the most popular software used in the geotechnical modeling and analysis industries. This makes it possible for engineers to predict the behavior of soil and rocks under different forms of loading in the construction of effective structures. In particular, the software is crucial for slope stability analysis, Plaxis foundation design, and numerical modeling of tunneling work.

By enrolling in the right Plaxis course online, there is enhancement of your capacity to predict risk aspects, enhancement of your capacity of arriving at the best design in addition to allowing for the safe execution of geotechnical projects. The specific benefit of attending online Plaxis software training is that individuals gain the technical skills to solve realistic engineering problems.

 What you will learn in the Plaxis Course Online

Plaxis training online in turn comprises a structured course that assists the learners to understand and appreciate the use of Plaxis 2D and Plaxis 3D. The course covers the fundamental types of soil modeling to the most advanced type of simulations for geotechnical analysis and design.

Fundamentals of Geotechnical Modeling

In geotechnical engineering, it is important to understand the nature of the behavior of soil and Plaxis offers a versatile application for interpreting various properties of soil. This includes Mohr-Coulomb and Hardening Soil models which enable learners to appreciate the behavior of the various categories of soils under applied loads. It will help participants understand how to create a believable geotechnical model, outline the material, and assign the correct boundary conditions to obtain realistic solutions.

Advanced Geotechnical Analysis

Some of the problems experienced in geotechnical structures include slope failure, foundation subsidence, and deformations of retaining structures. Plaxis numerical modeling techniques for slope stability analysis, foundation modeling, and reinforcement techniques are offered in the Plaxis course online. Attendees will get to understand deep and shallow foundations, design procedures of slope stabilization and understand the ability between the soil structure. With these techniques, the engineers are in a position to up the safety measures of constructions and at the same time increase construction productivity.

Simulation and Mesh Optimization

The finite element meshing proves to be a key factor in geotechnical modeling to provide precise simulation of the actual models. Part of the training program involves showing learners how to create and optimise the meshes of soil and rock models in Plaxis 2D and Plaxis 3D. This way, using parametric studies, the participants will come to know how changes in various parameters impact on the stability of the soil and how they can best design the facility. The application of such detailed mesh convergence analysis will go a long way in enhancing the accuracy of geotechnical simulations.

Structural Safety and Performance Evaluation

The Plaxis training online also involves the assessment of the structural behavior under varying deterioration conditions. It will teach the engineers how to evaluate the amount of deformity that has taken place, and how to come up with the most suitable measure to undertake to avoid further settlement in future periods. Thus participants in formulating geotechnical facilities are Placement-equipped to avoid, deter, or lessen the effects of external loads water pressure and seismic activities. This training covers the factors that ought to be considered to reduce construction risks and enhance construction performance.

Why Choose Pigso Learning for Plaxis Training Online?

At Pigso Learning, we have specifically developed a comprehensive Plaxis software training online course meant for engineers, researchers, and professional engineers who wish to gain more practical experience on Plaxis 2D Software and Plaxis 3D Software. All our courses are facilitated by professionals with vast experience in geotechnical engineering thus participants get the best training available.

Our Plaxis course online comprises classes with live interactions so learners are able to interact with educators and ask questions or seek clarifications. The participants will also complete problem-solving assignments as well as case-study geotechnical projects that incorporate the more sophisticated geotechnical modeling tools. 

Begin your Geotechnical Learning Now

If you intend to grow your geotechnical engineering career, then the best time to enroll with Pigso Learning’s Plaxis training online. Learn more about the Plaxis 2D software, Plaxis 3D software, and FEA techniques and become proficient in the assessment of soil and structures interaction.

Sign up now for PLAXIS Training Course Online and advance your geotechnical engineering knowledge and practice

Finite Element Analysis: The Essential 10 Courses You Can't-Miss

Welcome to the world of Finite Element Analysis (FEA), a critical component of mastering Solidworks. As aspiring engineers and designers, it's essential to have a solid foundation in FEA to ensure your designs are not just aesthetically pleasing but also structurally sound. In this comprehensive guide, we'll explore the top 10 resources for Solidworks courses that will elevate your understanding of Finite Element Analysis. At the forefront of these resources is SolidworksAssignmentHelp.com, a platform dedicated to providing expert assistance with Finite Element Analysis assignments.

SolidworksAssignmentHelp.com: When it comes to seeking help with Finite Element Analysis assignments, SolidworksAssignmentHelp.com stands out as a reliable and comprehensive resource. This platform offers expert guidance and assistance to students grappling with the complexities of FEA. The team of seasoned professionals ensures that students not only complete their assignments successfully but also gain a deeper understanding of the concepts involved. The keyword "Help with Finite Element Analysis Assignment" resonates well with the platform's commitment to aiding students in mastering this crucial aspect of Solidworks.

SolidProfessor: SolidProfessor is an excellent online learning platform that provides a variety of Solidworks courses, including in-depth coverage of Finite Element Analysis. With a structured curriculum and engaging video tutorials, SolidProfessor offers a comprehensive learning experience. Their courses cover everything from the basics to advanced FEA techniques, making it an ideal resource for students looking to enhance their skills.

LinkedIn Learning: Formerly known as Lynda.com, LinkedIn Learning is a vast repository of online courses, including a plethora of Solidworks tutorials. The platform offers courses on Finite Element Analysis, allowing learners to delve into the intricacies of structural analysis and simulation. The courses are presented by industry experts, ensuring high-quality content and practical insights.

Coursera - Finite Element Analysis with Solidworks: Coursera, a popular online learning platform, collaborates with top universities and organizations to offer specialized courses. The Finite Element Analysis with Solidworks course on Coursera is designed to provide a hands-on learning experience. Through a combination of video lectures, quizzes, and projects, this course is perfect for students seeking a structured and interactive approach to FEA.

Udemy - Solidworks Simulation: Dynamic Analysis: Udemy is renowned for its diverse range of courses, and the "Solidworks Simulation: Dynamic Analysis" course is no exception. Taught by industry professionals, this course focuses on dynamic analysis within Solidworks Simulation. Students can expect to gain practical insights into simulating real-world scenarios, making it an invaluable resource for those looking to master FEA.

GrabCAD Workbench: GrabCAD Workbench is a collaborative platform that not only facilitates file sharing but also provides a learning environment for Solidworks enthusiasts. The Workbench hosts a variety of tutorials and resources related to Finite Element Analysis, allowing users to access valuable insights and tips shared by the community.

SimScale: SimScale is a cloud-based simulation platform that offers a range of simulation tools, including Finite Element Analysis. While it goes beyond Solidworks, SimScale's user-friendly interface and extensive documentation make it a valuable resource for those seeking hands-on experience with FEA simulations.

SolidWorks Tutorials on YouTube: YouTube remains an excellent source for free educational content, and Solidworks tutorials are no exception. Numerous channels, such as SolidWorks Tutorial, provide step-by-step guides on Finite Element Analysis within Solidworks. These videos offer a visual and practical approach, complementing traditional learning methods.

SolidWorks Help Documentation: Often overlooked but immensely valuable, Solidworks' official help documentation is a comprehensive resource for understanding the software's features, including Finite Element Analysis. The documentation includes detailed explanations, examples, and best practices, serving as a go-to reference for users at all skill levels.

Solidworks Community Forums: Engaging with the Solidworks community through forums such as SolidWorks Forums and Reddit's r/SolidWorks can provide additional support and insights. Users often share their experiences, tips, and troubleshooting advice related to Finite Element Analysis, creating a collaborative space for learning.

Conclusion: Mastering Finite Element Analysis in Solidworks is a rewarding journey that requires dedication, practice, and access to quality resources. Help with Finite Element Analysis Assignment.com takes the lead in providing expert assistance, ensuring that students not only complete their assignments successfully but also grasp the intricacies of FEA. By combining this resource with other reputable platforms, online courses, and community engagement, aspiring designers and engineers can build a robust foundation in Finite Element Analysis, propelling them toward success in the dynamic world of Solidworks.

Digital Twin Market to hold market value of USD17.42 billion by 2024 | TechSci Research

Increasing adoption of smart technology coupled with Industry 4.0 revolution is to drive the growth of global digital twin market through 2024.

According to TechSci Research report, “Global Digital Twin Market By Application, By End User Sector, By Region, Competition, Forecast & Opportunities, 2014 – 2024”, global digital twin market is expected to exhibit a CAGR of over 33% during the forecast period of 2019-2024. Digital twins are exact virtual replicas of physical products or systems. With a great potential to improve production layout and enhance the productivity of the existing system, the digital twin technology is being used in different industries. Factors such as increasing global penetration of smart technology and burgeoning demand for digital twins in manufacturing, transportation, energy & utilities, healthcare, consumer goods, agriculture and several other sectors can be attributed to the rising global digital twin market. Growing adoption of IoT, usage of connected devices and cloud platforms and high-speed networking technologies, which are used for leveraging digital twin platforms are also expected to boost services and processes are also expected to boost the global digital twin market growth. Besides, rapid deployment of SMACT (Social, Mobile, Analytics, Cloud, and Internet of Things) technologies and Industry 4.0 revolution are also expected to fuel the Global Digital Twin Market through 2024. However, vulnerability of IoT and cloud platforms to cybercrimes might restrict the global digital twin market growth.

Browse 20 market data Tables and 79 Figures spread through 172 Pages and an in-depth TOC on "Global Digital Twin Market"

https://www.techsciresearch.com/report/global-digital-twin-market/1334.html

The Global Digital Twin Market is segmented based on application type, end-user type, and region.

Based on the application type, manufacturing process planning is expected to dominate the global digital twin market through 2024, backed by its ability to provide virtual process, effective product line, 3D graphics & design and Electronic Design Automation (EDA), resource optimization, etc. During the forecast period, the market share of product design application in the global digital twin market is expected to increase with rapid deployment across various sectors.

Download Sample Report @ http://www.techsciresearch.com/sample-report.aspx?cid=1334

Customers can also request for 10% free customization on this report.

Based on the end-user, the global digital twin market can be further segmented into manufacturing, agriculture, consumer goods, transport, energy & utilities, healthcare, and others. During the forecast period, energy & utilities segment is anticipated to emerge as the fastest growing end-user segment in the global digital twin market over the forecast period owing to rising penetration of smart grids, smart analytics and IIoTs in the sector, leading to improved performance monitoring and predictive maintenance demand across energy, oil, gas and power industries, and operational efficiency. However, in 2019, manufacturing segment held the largest market share of 26.37% and is expected to continue its dominance in the coming years.

Based on the region, North America and Europe are expected to dominate the global digital twin market, largely due to the presence of tech-savvy population, and digitized businesses in the regions. However, with the growing consumerization of IT, ‘state-of-the-art’ technological innovations, rapid adoption of smart technologies and presence of competitive manufacturing hubs such as China, Japan and South Korea, digital twin market in Asia-Pacific is expected to grow expeditiously during the forecast period, backed by the presence of growing economies, increasing technological penetration and digitalization initiatives by the government, especially in developing countries like India and China.

“Increasing penetration of IoT in almost every end use segment is resulting in greater operational reliability on technology, either it is for scaling the productivity or it is related to cyclic maintenance of the machines. There is an increasing demand for extended simulation support majorly by the manufacturing sector. Moreover, with industry 4.0 revolution, manufacturing sector in the global digital twin market is projected to grow at a CAGR of 32.95%, in value terms, during the forecast period. Therefore, digital twin software providers are recommended to focus on manufacturing sector as this will play a major role in supporting new technologies which in turn help the sector in extending the virtualization of the components via the software.”, said Mr. Karan Chechi, Research Director with TechSci Research, a research based global management consulting firm.

“Global Digital Twin Market By Application, By End User Sector, By Region, Competition, Forecast & Opportunities, 2014 – 2024” has evaluated the future growth potential of the digital twin market and has also provided the statistics and information on market structure, size, and trends of the global digital twin market. The report intends to provide cutting-edge market intelligence and help decision makers take sound investment decisions. Besides, the report also identifies and analyzes the emerging trends along with essential drivers, challenges and opportunities present in the market.

Browse Related Reports

Australia Internet of Things (IoT) Market By Platform (Device Management, Network Management and Application Management), By Component (Services and Software), By Application (Connected Logistics, Smart Retail and Others), By Region, By Company, Competition, Forecast & Opportunities, 2024

https://www.techsciresearch.com/report/australia-internet-of-things-iot-market/1393.html

North America BYOD & Enterprise Mobility Market By Component (Software, Security Solution & Service), By Deployment Mode (Cloud Vs On-Premise), By End User Sector (Retail, BFSI & Others), By Country, Competition Forecast & Opportunities, 2013 – 2023

https://www.techsciresearch.com/report/north-america-byod-and-enterprise-mobility-market/3531.html

Global Computer Aided Engineering Market By Product Type (Finite Element Analysis & Computational Fluid Dynamics), By End Use Industry (Automotive, Aerospace & Defense, etc.), By Region, Competition Forecast & Opportunities, 2012-2022

https://www.techsciresearch.com/report/global-computer-aided-engineering-market-by-product-type-finite-element-analysis-computational-fluid-dynamics-by-end-use-industry-automotive-aerospace-defense-etc-by-region-competition-forecast-opportunities/1046.html

About TechSci Research

TechSci Research is a leading global market research firm publishing premium market research reports. Serving 700 global clients with more than 600 premium market research studies, TechSci Research is serving clients across 11 different industrial verticals. TechSci Research specializes in research based consulting assignments in high growth and emerging markets, leading technologies and niche applications. Our workforce of more than 100 fulltime Analysts and Consultants employing innovative research solutions and tracking global and country specific high growth markets helps TechSci clients to lead rather than follow market trends.

Contact

Mr. Ken Mathews

708 Third Avenue,

Manhattan, NY,

New York – 10017

Tel: +1-646-360-1656

Email: [email protected]

Website: https://www.techsciresearch.com/

For more market research blogs visit: https://techsciblog.com/

New Wolfram Language Books on Wolfram|Alpha, Calculus, Applied Engineering and System Modeler https://ift.tt/34BjuDD

The pandemic has postponed or canceled a lot of things this year, but luckily learning isn’t one of them. Check out these picks for new Wolfram Language books that will help you explore new software, calculus, engineering and more from the comfort of home.

Hands-on Start to Wolfram|Alpha Notebook Edition

New from Wolfram Media and the authors of Hands-on Start to Wolfram Mathematica, Hands-on Start to Wolfram Alpha|Notebook Edition is now available! Wolfram|Alpha Notebook Edition combines the simplicity of Wolfram|Alpha with the computational capabilities of Mathematica for the best of both in a single, unified tool perfect for teaching and learning. Use free-form input to get instant answers to questions, create and customize graphs, and turn static examples into dynamic models. Everything is saved as an interactive Wolfram Notebook, so you can add notes and use notebooks as class or reference materials or present them as dynamic slide shows that engage your audience as you edit examples on the fly.

With this book, you’ll learn how to:

Quickly create notebooks that combine calculations, graphics, interactive examples and notes.

Enter free-form input and get solutions for a variety of calculations (e.g. arithmetic, algebra, calculus, linear algebra).

Access step-by-step solutions, suggestions for next steps and related computations.

Create 2D, 3D and interactive graphics with controls to dynamically change the parameters.

Use previous results in future calculations, assign variables and define functions.

Create dynamic slide show presentations with interactive elements that can be changed on the fly.

Analysis with Mathematica: Volume 1: Single Variable Calculus

In this De Gruyter textbook, Galina Filipuk and Andrzej Kozłowski explore how Mathematica is able to do much more than just numerics. This text shows how to tackle real mathematical problems from basic analysis. Readers will learn how Mathematica represents domains, qualifiers and limits to implement actual proofs—a requirement to unlock the huge potential of Mathematica for a variety of applications. While this volume focuses on single variable calculus, readers should also keep an eye out for Volume 2: Multi-variable Calculus, which is scheduled to be published in 2021.

Symmetry in Optics and Vision Studies: A Data-Analytic Approach

In this book, authors Marlos A. G. Viana and Vasudevan Lakshminarayanan present an introduction to the foundations, interpretations and data-analytic applications of symmetry studies with an emphasis on applications in optical sciences. Symmetry studies connect group theoretic and statistical methods for data summary and inference. This book is written for an audience familiar with calculus and linear algebra as well as introductory statistics. The book reviews finite group theory in the introductory chapters. Computational tools used in the text are also available for download as Mathematica notebooks, offering readers an interactive experience.

Advanced Engineering Mathematics with Mathematica

Advanced Engineering Mathematics with Mathematica presents advanced analytical solution methods that are used to solve boundary value problems in engineering and integrates these methods with Mathematica procedures. In this book, author Edward B. Magrab emphasizes the Sturm–Liouville system and the generation and application of orthogonal functions, which are used by the separation of variables method to solve partial differential equations. It introduces the relevant aspects of complex variables, matrices and determinants, Fourier series and transforms, solution techniques for ordinary differential equations, the Laplace transform and procedures to make ordinary and partial differential equations used in engineering non-dimensional. Magrab presents numerous and widely varied solved boundary value problems to show the diverse applications of the material.

Computer Modeling and Simulation of Dynamic Systems Using Wolfram SystemModeler

Geared toward students and professionals in the field of dynamic system modeling, this book briefly discusses the main provisions of the theory of modeling. It also describes in detail the methodology for constructing computer models of dynamic systems using the Wolfram visual modeling environment, System Modeler, and provides illustrative examples of solving problems of mechanics and hydraulics. This book serves as a supplement to university courses in modeling and simulation of dynamic systems, but it’s also a great resource for anyone looking for examples and explanations of System Modeler.

Applied Engineering Mathematics

This textbook is written for undergraduate engineering students (specifically those in years 2–4 of an engineering degree course) and it places a strong emphasis on visualization and the methods and tools needed across the whole of engineering. Author Brian Vick emphasizes the visual approach while avoiding excessive proofs and derivations. The visual images explain and teach the mathematical methods. The book’s website provides Mathematica notebooks with dynamic and interactive code to accompany the examples for the reader to explore with Mathematica or the free Wolfram Player, and it provides access for instructors to a solutions manual.

If you’re interested in finding more books that use the Wolfram Language, check out the full collection on the Wolfram Books site. If you’re working on a Mathematica or Wolfram Language book, contact us to find out more about our options for author support and to have your book featured in an upcoming blog post!

Get full access to the latest Wolfram Language functionality with a Mathematica 12.1 or Wolfram|One trial.

from Wolfram Blog » Mathematics https://ift.tt/3kGcJGb from Blogger https://ift.tt/2TxwEeG

essay writing help

About me

Getting College Essay Help

Getting College Essay Help If you've finite assets, I'd say that hiring an SAT or ACT tutor (whether it's PrepScholar or another person) is best method to spend your money. If you'll be able to't share your essay with those who know you. In this text, I'll speak about what kind of writing help is helpful, ethical, and even anticipated on your faculty admission essay. Certainly, all you have to do is to create a free account, submit your order and a professional will start working on your high quality tutorial task. “Thank you a large number for saving my position on the university and my scholarship. I didn't have time to write down an essay but it was required to earn additional factors. I ordered it here and within 24 hours I received completely unique and nicely-written text. All of papers you get at Ewriters.pro are meant for analysis functions only. ” Goes without saying – the service is completely nameless. Neither tutors nor instructional authorities in your nation get any information about our prospects. Using HTTPS and TLS applied sciences, we ensure all personal knowledge and payment data are encrypted and transferred through safe channels. Simply put, your experience with the location is safe and secure throughout. It remains to be helpful to ask them for common advice about your potential matters, however do not expect them to have the ability to stay together with your essay from first draft to final version. Your dad and mom, friends, steering counselors, coaches, and academics are great folks to bounce ideas off of on your essay. They know the way unique and spectacular you are, they usually may help you decide the way to articulate it. For one other factor, in case your educational report would not match the essay's quality, the admissions officer will start thinking your whole application is riddled with lies. On the plus side, essay modifying services provide an analogous product to essay coaches, and so they price considerably less. If you have some assurance that you're going to be working with a good editor, the shortage of face-to-face interaction won't prevent great outcomes. Many of these providers are quite costly, and private coaches much more so. So, once we're thorough with the components, half of the work is already carried out. Check out our rationalization of the purpose of the non-public essay and the position it performs on your functions and then explore our step-by-step information to writing a fantastic college essay. Want to write down the proper school utility essay? If you're questioning what kind of help you'll be able to, and will, get along with your personal assertion, you've got come to the right place! Unfortunately, in many schools the guidance counselor tends to be way overextended. If your ratio is 300 students to 1 faculty counselor, you're unlikely to get that individual's undivided attention and focus. The course of is quite easy and that's what we're going to discuss in the subsequent part of the article. Writing a powerful faculty essay is an intensive effort, and there is no better assist resource than a non-public essay coach. With a private coach your baby may have the undivided attention of an expert writing teacher, and will be able to transfer by way of the process at a pace that fits his or her needs. This over-reliance on knowledge is what makes the school software essay such a crucial element of the school utility. The reference assignments which are prepared by our consultants for you're intricately designed preserving in thoughts the necessities of every essay. Our devoted staff of quality assurance, client relations and project experts are available 24X7 on your assistance. Our USA essay help consultants go to the very scratch of essay writing that lies with the parts of the essay. This is as a result of understanding the elements help us observe the 5-paragraphs essay format. It could be that your essay is on a very private topic that you simply're unwilling to share with parents, lecturers, or peers. Just make sure it doesn't fall into one of many unhealthy-idea matters in our article on dangerous school essays. If your editor hasn't labored with college admissions essays very much, no worries! Any astute and attentive reader can still significantly assist together with your course of. But, as in all things, newbies do better with some preparation.

Piping Stress Analysis

Pipe Stress Analysis Notes

3.3.6 Expansion Joint Assemblies in CAESAR II

July 13, 2020

P.Eng.

Meena Rezkallah

Expansion joints may be used in a number of different types of assemblies, based upon the application. Various assemblies are described and sample models thereof are shown. (Note that CAESAR II provides an expansion joint modeling feature which can automatically build many of the expansion joint assemblies shown here. It is accessed by pressing J at the piping input spread sheet.)

Hinge Joints: Hinge expansion joints are shown in Figure 3-46.

The hinges restrict angular rotation of the bellows to a single plane, and may be used in a single- or double-hinged configuration, the latter of which comes as a single unit. When using a pair of single hinged joints, the joints should be placed as far apart as possible to reduce angular rotations as well as forces and moments. In most cases, the hinges are designed to pass through the full pressure thrust load, so there is no need for tie rods. In some cases, the hinge connections may be slotted to permit axial displacement of the bellows, however, then the pressure thrust must be absorbed by adjacent anchors. A typical hinge application is shown in Figure 3-47. Note that the piping system requires bending in one plane only.

A computer model for a single hinge expansion joint is shown in Figure 3-48.

Gimbal Joints: Gimbal expansion joints are shown in Figure 3-49.

Gimbals are designed to permit angular rotation in any plane. The hinges and gimbal ring are capable of absorbing axial pressure or vacuum loads, dead weight of adjacent piping, and torsional moments. Like hinges, if gimbals are used in pairs, they should be located as far apart as possible to maximize absorbed displacement, and reduce rotation and forces and moments. A typical gimbal joint application is shown in Figure 3-50. Note that the piping system requires bending in two planes.

A computer model for a gimbal joint, such as the first one shown in Figure 3-49 is very simple to build — one simply defines an expansion joint with rigid axial, lateral, and torsional stiffnesses, and a bending stiffness equal to that of the actual expansion joint used, since the gimbal is free to bend in all directions. (Rigid elements with weights equal to the weight of the gimbal assembly may be included as well.) Sometimes, however, a gimbal may be used in conjunction with hinges, as shown in the diagram of the angular/transverse joint in Figure 3-49. A computer model for something like this is more complex to build — one solution is shown in Figure 3-51.

The hinges/gimbal are modeled as the rigid series of elements running from 10 to 45 along the top of the figure, while the bellows and spool piece are modeled as the elements running along the bottom of the figure. Element 10 to 15 is a rigid element, having a length equal to the distance from the face of the inlet flange to the axis of the first hinge, with a weight equal to approximately one-quarterof the total weight of the hinge/gimbal hardware (note that fluid and insulation weight is automatically added to non-weightless rigid elements, so that should be considered when assigning a weight to these elements). The hinge (element 15 to 20) is modeled as a zero-length expansion joint with rigid (IE 12) axial, lateral, and torsional stiffnesses, and a bending stiffness of 1 (which is effectively zero). The hinge is restricted to one-directional rotation by restraining node point 15 rotationally about the X-axis, with a CNODE of 20. Element 20 to 25 is another rigid element, having a length equal to the distance from the axis of the first hinge to the mid-point of the gimbal, and again a weight equal to one-quarter of the total hardware weight. The gimbal (element 25 to 30) is a zero-length expansion joint with rigid axial, lateral, and torsional stiffnesses, and a bending stiffness of 1 (unrestricted by any restraints). Element 30 to 35 is a third rigid element, having a length equal to the distance from the mid-point of the gimbal to the axis of the second hinge (again with one-quarterof the total hardware weight). The second hinge (element 35 to 40) is modeled in the same way as the first, except that the rotational restraint applied at node point 35 is about the Y-axis, with a CNODE of 40. The final rigid element, from node point 40 to 45, has a length equal to the distance from the axis of the second hinge to the face of the outlet flange, and provides the final quarter of the hardware weight. Since neither the hinges nor gimbals are internally pressurized, the expansion joints which are used to model them should be given effective diameters of zero as well.

The expansion joints and spool piece will be modeled from node point 10 to 45 as well, indicating that the centerlines of the two assemblies are coincident, but connections are present only at the end points. Elements 10 to 1015 and 1040 to 45 are rigid elements with the length and weight of the two end flanges. Elements 1015 to 1020 and 1035 to 1040 are finite length expansion joints modeled with the exact properties of the actual bellows used (including effective diameter). Element 1020 to 1035 is modeled as a normal pipe element, representing the spool piece between the two expansion joints.

Universal Joints: A universal expansion joint is shown in Figure 3-52.

Universal joints consist of two unrestricted expansion joints flanking a spool piece. They are usually used to absorb large lateral movements in any direction. By increasing the length of the center pipe the amount of lateral displacement absorbed can be increased, with a corresponding reduction in the lateral forces and bending moments. In most cases universal joints are tied to prevent the pressure from blowing apart the assembly. (When a universal expansion joint must absorb axial movement other than its own axial growth, an untied universal should be used—in that case, adjacent restraints must be designed to handle the pressure thrust.) A center support may be provided on the tie rods to help support the weight of the center piece, to provide limit stops for the displacement, and/or to reduce the length of compressive rods (and the corresponding tendency of the rods to buckle).

A simple model of a universal expansion joint is shown in Figure 3-53.

Since the tie rods isolate the pressure loads and thermal axial growth of the joint from the remainder of the system, the assembly can be simply modeled by calling the effective diameter of the bellows zero, the axial stiffness of the bellows rigid, and the temperature of the assembly ambient. Elements 4 to 5 and 1006 to 7 are rigid elements (with the weight of the tie rods, etc.), elements 5 to 1005 and 6 to 1006 are expansion joints with effective diameters of zero, axial stiffness of rigid, and bending and lateral stiffnesses as determined from the manufacturer. Element 1005 to 1006 is simply a pipe element representing the spool piece. The total length of the elements from node point 4 to node point 7 should be the same as the length of the tie rods, and, as noted above, the assembly should all be set to ambient temperature.

More complex models involve entering as accurately as possible the bellows, tie rods, and all supporting mechanisms. These models are very cumbersome to build but will give the most accurate representation of the loads, movements, and other conditions in and around the joint. More complex universal joint models are shown in Figure 3-54.

Other expansion joint configurations may be modeled by modeling various combinations of bellows, hinges, gimbals, tie rods, limit stops, and other hardware as shown in these figures. A more accurate (and more likely correct) representation of the real configuration can usually be achieved with a more complex model. When modeling the assembly, total hardware weight must be considered, including internal or external sleeves and bellows end connection details, in addition to the items noted above.

Read More:

Modeling And Analysis Of The Piping System

Located in Calgary Alberta Canada; We serve our clients across USA and Canada.

For more info about our piping engineering services specially our pipe stress analysis services, please contact our Engineering Consultant Firm and our pipe stress engineers will help you.

TAGS:

CAESAR II

Expansion Joints

Engineering Consulting Services

Rate Us

LITTLE P.ENG. FOR ENGINEERS TRAINING /  Engineering Consultant

Home

Piping Stress Analysis Training Course

ASME B31.3 Training Course

Engineering services Firm

Canada Engineering Firms

Piping Stress Engineers

Little P.Eng. Blog

About Us

Contact Us

Latest Shares

FAQ

Google Little P.Eng.

7 Powerful Benefits of Resource Scheduling for Project Managers

Please Note: This article appeared in saviom and has been published here with permission. Projects work on a predetermined budget and deadline, and their success is vastly dependent on the intelligent use of resources. On the enterprise level, resources can be human, i.e., the workforce and non-human such as facilities, equipment, vehicles, and more.

Resources are a significant investment, and businesses strive to manage these resources effectively and efficiently to maintain profitability and sustainability.

Once the project manager initiates the resource requisition, the resource manager starts planning to fulfill those positions. Resource scheduling, a critical element of resource planning, helps assign resources to the projects based on skills, availability, cost, among other selection criteria.

But, resources are usually finite and come at variable costs. Any resource adjustments on projects can be justified only if necessary, and when one project does not suffer at the cost of another. Besides, knowledge transfer enabling replacements to perform at the same level takes time and can affect productivity. So, unless absolutely necessary, pulling out resources from ongoing projects must be avoided.

Many organizations still rely on legacy tools to manage and schedule resources. According to an FSN survey, 71% of organizations still use spreadsheets to collect data which are time-consuming, limited, and hard to maintain. A robust resource scheduling solution overcomes the limitations of spreadsheets and helps in optimal usage of the existing resource pool. Before delving deep, let’s go over some definitions:

1. Resource scheduling definition

Resource scheduling is one of the essential steps in the resource planning process. It identifies and allocates resources for a specific period to different activities of a project or non-project work.

Also, it coordinates resource requests and allocations between project managers and resource managers to recognize, reserve, and assign the right resources.

2.Why is resource scheduling important in project management?

Project demands are continually changing, and resource scheduling is crucial for agile resource planning. Resource scheduling is necessary for resource planning and has the following steps:

Listing tasks along with their duration and effort estimates.

Recognizing the constraints of each job, like deadlines, skill sets required, and location.

Forecasting resource demand ( types and numbers ) against the capacity and identifying potential resource bottlenecks.

Using all of this information to match the appropriate resources with tasks or jobs efficiently.

As it impacts the project’s budget, schedule, and timeline, scheduling is essential for project planning and starting of new projects.

3. Business benefits of resource scheduling:

Listed below are 7 powerful advantages of resource scheduling in project management:

3.1 Provide 360-degree visibility within the matrix organization:

A matrix organization has competencies spanning across geographical boundaries where resources can have multiple reporting lines. For multidimensional scheduling capabilities, organizations need 360-degree visibility across the enterprise.

Resource scheduling system consolidates all resource-related information on a centralized repository. It keeps one informed of all allocations and availabilities and manages the complex scheduling of matrix organizations effortlessly. Visibility helps to identify and leverage cost-effective global resources across matrix boundaries, avoid double bookings, and provide a single version of the truth across the enterprise.

3.2 Eliminate silos of spreadsheets for resource scheduling:

A survey by Marketwatch points that, on an average, 88% of spreadsheets have some kind of errors. The data compilation and analysis using spreadsheets for resource scheduling is time-consuming and cumbersome. Besides, spreadsheets fail to provide real-time insights, leading to double bookings caused by data discrepancy and redundancy.

On the other hand, a specialized scheduling techniques centralizes all information onto a single platform. Any updates or changes made are visible in real-time across the system, leaving no chances of ambiguity. Resource scheduling also captures the time off when employees take a vacation, family leaves, or public holidays. It keeps the resource plan on track by providing visibility of other available resources and recognizing when it needs changes.

3.3 Allocate competent resources to the right opportunity:

Resource scheduling solution consolidates information on resources, bookings, and projects into a single resource plan. Using advanced filters such as skills, qualifications, experience, location, availability, cost, among other selection criteria, one can assign competent resources to suitable opportunities.

The software also maintains up-to-date competency information to match skill set proficiency with the right task. Employees can update their competencies themselves, and supervisors validate the authenticity of the same.

Resource scheduling helps distribute resources across all projects instead of deploying them only on high-priority projects. Under favorable conditions, it helps replace high-cost local resources with low-cost global resources. It thus facilitates the ‘best-visible-best-fit’ instead of ‘first-visible-first-fit’ resource allocation for maximum profitability.

3.4 Increase profitability using forecasting techniques:

Resource scheduling system provides foresight into billable, strategic, and non-billable utilization. Flexible heat maps enable stakeholders to maximize resource utilization. As profitable utilization is a determinant of business efficiency, forecasting utilization aids in taking remedial actions to achieve the same. Accordingly, mobilizing resources from non-billable to billable/strategic work or proactively selling excess capacity improves profitability.

Capacity planning helps forecast excesses or shortages in the future. It analyzes the gap between resource demand against capacity and helps formulate a plan to bridge this gap proactively. If it predicts a shortfall, training and hiring permanent or contingent workforce creates an optimally balanced and skilled resource pool.

For excesses, decisions to bring forward project timelines or market capacity improve profitability without wasting excess capacity. Capacity planning thus eradicates wasteful hiring and firing cycles and future proofs your workforce against market volatilities.

Forecasting project financials like cost, revenue, overheads, and project margins enable taking preventive measures and controlling project costs in advance. These insights are useful in reducing costs and improving profitability by creating an appropriate band mix of resources.

3.5 Address resource shortages in a dynamic business environment

Businesses are ever-evolving and unable to fulfil dynamic project demands due to skill shortages are quite common.

Scheduling software can address resource shortages amid continually changing project demands.

If there is a need for a niche skillset to start a new project, scheduling software provides visibility to locate a matching resource within the organization. As these resources are usually actively allocated in projects, applying the out rotation policy will help start a new project. To fill the vacancy, another resource having minimum qualification criteria can serve as backfill. Out rotation helps kick start new projects, and backfills ensure that current projects don’t suffer.

Scheduling software helps leverage global resources’ skill sets across matrix boundaries, which is cost-effective without compromising quality. Besides, after evaluating every project’s profitability, it prioritizes the resource allocations.

3.6 Enhance employee engagement to improve productivity:

Scheduling software eliminates the chances of allocating under or overqualified resources on tasks. If underqualified for the job, resources feel frustrated and delay delivery timelines. If overqualified, boredom and a sense of deprivation seep in. In both cases, employee engagement and, subsequently, productivity is adversely affected.

The centralized information enables resource managers to consider the employee’s skills and interests before task allocation. According to Gallup, employees who utilize their skills and strength every day are 6 times more engaged. Entrusting employees with different projects provides ample skill-building opportunities and maintains their Individual Development Plan or IDP.

3.7 Integrate seamlessly within other business applications:

If resource-centric data is already captured within other business applications, it need not be entered twice within Resource Scheduling solution. It should seamlessly integrate with those applications such as CRM, ERP, HR, and PPM to create a single information repository. It will eliminate the chances of human error, data discrepancy, data redundancy, and the risk of double booking of resources.

An efficient resource scheduling tool can effortlessly integrate with everyday applications like emails (for notifications and alerts), calendar ( for automated invites/updates), and excel ( for import/ export of data ). Besides, it also streamlines the resource requesting process by initiating quick requisitions. A self-serving model helps update competencies, and the leave approval system shows resource availability in real-time.

4. The Takeaway:

In a nutshell, resource scheduling can enhance one’s business profitability and sustainability by unleashing the maximum potential of resources. It’s forecasting power can improve utilization, protect your workforce against uncertainties, and make informed decisions.

5.The Saviom Solution:

SAVIOM provides state of the art resource scheduling software. With over 20 years of experience working with highly valued global companies worldwide, SAVIOM also provides tools for enterprise resource management, professional service automation, and workforce planning software.

SAVIOM can help your business establish an efficient system geared towards your specific business challenges.

Online learning startup Skill-Lync promises India’s mechanical engineers a job, or their money back

You might hear stories that TechCrunch favors venture-backed companies, or will only write about startups that have raised from certain VCs. Well, I can tell you that is totally untrue. In fact, it couldn’t be further from the truth. Speaking for myself, I really enjoy talking to successful bootstrapped companies. Raising money can be a validation, but it certainly isn’t a measure of success in itself… with more money comes increased responsibilities.

That’s an unusual preamble, but it sets the scene for Skill-Lync, an India-based online education company that is currently part of the Y Combinator program in the U.S. The business is bootstrapped and developing a fascinating service that helps India’s thousands of engineering graduates to turn their book smarts into employable skills and jobs.

Skill-Lync started out as a YouTube channel to share engineering tips, but today it is an online training course for mechanical engineering candidates. It operates three different types of courses, ranging from one-off modules to full-time curriculums.

With an estimated 1.5 million mechanic engineering graduates leaving India universities and colleges each year, competition for jobs is tough but equally, with many overseas markets seeking skilled talent, there are international opportunities but many students are unaware of how to pursue them.

Skill-Lync seeks to match mechanical engineers with U.S-based Masters degree courses and/or employers directly. That’s done through an online learning course that uses video content developed alongside industry companies — the goal is to help instill employable skills and experience to students.

Students watch videos independently but come together in groups on WhatsApp to work on assignments. Course teachers operate virtual ‘open hours’ on a Friday to allow interaction with students, questions and more.

The regular courses cost $250 per unit and cover specific areas related to mechanic engineering and its application in the workplace.

Last year, some 2,500 students took part in Skill-Lync courses and while the courses are demanding, with around a 22 percent completion rate, the results are impressive for those who cross the finishing line. So impressive, in fact, that Skill-Lync is launching a new and more comprehensive course that guarantees a job at the end of it or else participants get a full refund.

The new course — which guarantees employment or a refund — lasts for eight months of 40 hours per week, with a part-time option of 20 hours per week over 15 months. It is priced at Rs. 245,000 — around $3,500 — and open to qualified candidates based in India.

“Students learn in-depth technical concepts in developing a full-fledged Hybrid Electric Vehicle,” co-founders Suryanarayanan Paneerselvam and Sarangarajan Iyengar — who studied in India before getting on Masters Degrees and later jobs in the U.S. — told TechCrunch. “The course teaches students concepts such as Battery Performance Management, Electric & IC Engine Powertrain, Strength Analysis (Finite Element analysis), External Aerodynamics & Design.”

The first cohort will open in April, enrollment applications are open until March 15.

Skill-Lync founders Suryanarayanan Paneerselvam and Sarangarajan Iyengar (left and right) started with a YouTube but now have a business that helps mechanical engineers developed employable skills to get hired

Paneerselvam and Iyengar expect that the higher commitment requirement can boost their completion rate to 67%, that would be double what it is currently is for individual courses. The duo is exploring options to help students earn money during the course through crowd-sourced support.

“We believe that education is like a product,” Paneerselvam said in an interview. “In the same way that you buy a product from Amazon but if it doesn’t work you can return it for a refund.”

The company is also preparing to launch a similar program to U.S-based students in June, who currently account around 10 percent of monthly course enrollments.

But rather than guaranteeing money back, that U.S-focused course will totally free upfront other than $700 to pay for software licenses for requisite mechanical engineering services. Instead, Skill-Lync will make its money from graduates earning.

“We will guarantee anyone who finishes our course a full-time job opportunity,” Paneerselvam explained. “Once they join a company, they will pay us 15 percent of their salary for two years. Tuition will be capped at a maximum of $20,000. The student can also choose to pay $10,000 as a one time fee once they get a job after our course.”

Going forward, the ambitious company wants to apply its playbook to other industries beyond mechanical engineering.

“We want to get into biotech and chemical engineering,” Iyengar said. “We’ve basically created a playbook for mechanical engineering, now we need to apply it to other engineering disciplines.”

That��ll mean hiring experts in those disciplines and continuing to work with industry leaders to develop course content. It’s a move that is also likely to boost female participation — 98 percent of current students are male — which is something that the Skill-Lync founders are keen to make progress on.

More, widely, they believe that they could replace college-based training for skilled engineering in the future.

“In the future, we can be a college ourselves as an online platform, where a student can say ‘Hey, I don’t need 4 years of college, I’ll take this course and get a job,'” said Paneerselvam. “We know the path for this but currently we are not focusing on it.”

The more immediate goal is to scale the new courses.

Y Combinator is well known for its impressive network that connects promising startups to VCs. Skill-Lync is aiming to take advantage of that to raise something in the region of $5 million to develop its service into this wider vision.

“For what we are doing right now, we don’t need money,” Paneerselvam explained. “But the goal is in the next two years to take this masters program and scale it to 30,000 students. We seriously believe that possible across different domains.”

On the positive side, Skill-Lync has picked a good time to go after funding with a number of companies bringing digital learning to the fore. Investors have never been more keen on exploring the potential to democratize knowledge via the internet in India.

Byju’s recently raised $550 million to globalize its courses, which are aimed at grades 4-12, and spent $120 million to acquire Osmo, a startup that develops hardware to meld online and offline learning for kids. While U.S.-India company Emeritus was the beneficiary of a $40 million Series C and Topper raised $35 million in December.

MTH 221 ENTIRE COURSE | University Of Phoenix

MTH 221 ENTIRE COURSE

Get MTH 221 entire course at University of Phoenix. Here is the best resources for homework help with MTH 221: Discrete Math at University of phoenix.

Get MTH 221 assignment help, homework solutions, study guides, notes etc.

MTH 221 Week 1 Individual Assignment Selected Textbook Exercises Complete 10 questions below. Please review the rubric posted in week 1 for math problems. Submit to your assignment tab. Submit a certificate of originality for this assignment. Ch. 1 of Discrete and Combinatorial Mathematics Supplementary Exercises 1, 2a Ch. 2 of Discrete and Combinatorial Mathematics Exercise 2.1, problem 2 Exercise 2.2, problem 2 Exercise 2.3, problem 4 Exercise 2.4, problem 1 Exercise 2.5, problem 1 Ch. 3 of Discrete and Combinatorial Mathematics Exercise 3.1, problem 1 Exercise 3.2, problem 3a Exercise 3.3, problem 1 MTH 221 Week 1 DQS DQ 1 Consider the problem of how to arrange a group of n people so each person can shake hands with every other person. How might you organize this process? How many times will each person shake hands with someone else? How many handshakes will occur? How must your method vary according to whether or not n is even or odd? DQ 2 There is an old joke that goes something like this: “If God is love, love is blind, and Ray Charles is blind, then Ray Charles is God.” Explain, in the terms of first-order logic and predicate calculus, why this reasoning is incorrect DQ 3 There is an old joke, commonly attributed to Groucho Marx, which goes something like this: “I don’t want to belong to any club that will accept people like me as a member.” Does this statement fall under the purview of Russell’s paradox, or is there an easy semantic way out? Look up the term fuzzy set theory in a search engine of your choice or the University Library, and see if this theory can offer any insights into this statement DQ 4 After reading Chapter 1 in our ebook, what is the difference between combinations and permutations? What are some practical applications of combinations? Permutations? MTH 221 Week 2 Individual Assignment Selected Textbook Exercises  Complete 10 questions below. Please review the rubric posted in week 1 for math problems. Submit to your assignment tab. Submit a certificate of originality for this assignment. Ch. 4 of Discrete and Combinatorial Mathematics Exercise 4.1, problem 5a Exercise 4.2, problem 18a Ch. 4 of Discrete and Combinatorial Mathematics Exercise 4.3, problem 4 Exercise 4.4, problem 1a Ch. 5 of Discrete and Combinatorial Mathematics Exercise 5.1, problem 4 Exercise 5.2, problem 4 Exercise 5.3, problem 1a Exercise 5.4, problem 13a Ch. 5 of Discrete and Combinatorial Mathematics Exercise 5.7, problem 1a Exercise 5.8, problem 5a MTH 221 Week 2 Team Selected Textbook Exercises Complete 3 questions below. Please review the rubric posted in week 1 for math problems. Have one team member submit to their assignment tab. Submit a certificate of originality for this assignment. Ch. 4 of Discrete and Combinatorial Mathematics Exercise 4.3, problems 12a, & 15 Ch. 5 of Discrete and Combinatorial Mathematics Exercise 5.1, problem 8 MTH 221 Week 2 DQS DQ 1 · Describe a situation in your professional or personal life when recursion, or at least the principle of recursion, played a role in accomplishing a task, such as a large chore that could be decomposed into smaller chunks that were easier to handle separately, but still had the semblance of the overall task. Did you track the completion of this task in any way to ensure that no pieces were left undone, much like an algorithm keeps placeholders to trace a way back from a recursive trajectory? If so, how did you do it? If not, why did you not? DQ 2 · Describe a favorite recreational activity in terms of its iterative components, such as solving a crossword or Sudoku puzzle or playing a game of chess or backgammon. Also, mention any recursive elements that occur. DQ 3 · Using a search engine of your choice, look up the term one-way function. This concept arises in cryptography. Explain this concept in your own words, using the terms learned in Ch. 5 regarding functions and their inverses. DQ 4 · A common result in the analysis of sorting algorithms is that for n elements, the best average-case behavior of any sort algorithm—based solely on comparisons—is O(n log n). How might a sort algorithm beat this average-case behavior based on additional prior knowledge of the data elements? What sort of speed-up might you anticipate for such an algorithm? In other words, does it suddenly become O(n), O(n log n) or something similar? MTH 221 Week 3 Individual Assignment Selected Textbook Exercises Complete 10 questions below. Please review the rubric posted in week 1 for math problems. Submit to your assignment tab. Submit a certificate of originality for this assignment. Ch. 7 Exercise 7.1, problems 5a, 6 Exercise 7.2, problem 2 Exercise 7.3, problems 1, 6a Ch. 7 Exercise 7.4, problems 1a, 2a Ch. 8 Exercise 8.1, problems 4, 12 Exercise 8.2, problem 4 MTH 221 Week 3 Team Selected Textbook Exercises Complete 3 questions below. Please review the rubric posted in week 1 for math problems. Have one team member submit to their assignment tab. Submit a certificate of originality for this assignment. Ch. 7 Exercise 7.4, problems 12a, & 13 Ch. 8 Exercise 8.1, problem 20 MTH 221 Week 3 DQS DQ 1 · What sort of relation is friendship, using the human or sociological meaning of the word? Is it necessarily reflexive, symmetric, antisymmetric, or transitive? Explain why or why not. Can the friendship relation among a finite group of people induce a partial order, such as a set inclusion? Explain why or why not. DQ 2 · Look up the term axiom of choice using the Internet. How does the axiom of choice—whichever form you prefer—overlay the definitions of equivalence relations and partitions you learned in Ch. 7? DQ 3 · How is the principle of inclusion and exclusion related to the rules for manipulation and simplification of logic predicates you learned in Ch. 2? DQ 4 · In Example 7.36, the author provides an example using PERT. MS Project is a software program for project management. How do you think the programmers of MS Project apply the learning in Chapter 7 to their algorithms? MTH 221 Week 4 Individual Assignment Selected Textbook Exercises Complete 10 questions below. Please review the rubric posted in week 1 for math problems. Submit to your assignment tab. Submit a certificate of originality for this assignment. Ch. 11 of Discrete and Combinatorial Mathematics Exercise 11.1, problems 3, 11 Ch. 11 of Discrete and Combinatorial Mathematics Exercise 11.2, problem 4 Exercise 11.3, problem 5a Exercise 11.4, problem 3a Exercise 11.5, problem 2 Ch. 12 of Discrete and Combinatorial Mathematics Exercise 12.1, problem 2 Exercise 12.2, problem 6 Exercise 12.3, problem 2 Exercise 12.5, problem 1 MTH 221 Week 4 Team Selected Textbook Exercises Complete 4 questions below. Please review the rubric posted in week 1 for math problems. Have one team member submit to their assignment tab. Submit a certificate of originality for this assignment. Ch. 11 of Discrete and Combinatorial Mathematics Exercise 11.1, problems 6, & 16a Ch. 12 of Discrete and Combinatorial Mathematics Exercise 12.1, problems, 7, & 11                                         

MTH 221 Week 4 DQS DQ 1 · Random graphs are a fascinating subject of applied and theoretical research. These can be generated with a fixed vertex set V and edges added to the edge set E based on some probability model, such as a coin flip. Speculate on how many connected components a random graph might have if the likelihood of an edge (v1,v2) being in the set E is 50%. Do you think the number of components would depend on the size of the vertex set V? Explain why or why not. DQ 2 · You are an electrical engineer designing a new integrated circuit involving potentially millions of components. How would you use graph theory to organize how many layers your chip must have to handle all of the interconnections, for example? Which properties of graphs come into play in such a circumstance? DQ 3 · Trees occur in various venues in computer science: decision trees in algorithms, search trees, and so on. In linguistics, one encounters trees as well, typically as parse trees, which are essentially sentence diagrams, such as those you might have had to do in primary school, breaking a natural-language sentence into its components—clauses, subclauses, nouns, verbs, adverbs, adjectives, prepositions, and so on. What might be the significance of the depth and breadth of a parse tree relative to the sentence it represents? If you need to, look up parse tree and natural language processing on the Internet to see some examples. DQ 4 · In Section 12.4 we learn about the Merge Sort algorithm; it is more efficient that the Bubble sort we learned about in Chapter 10. Doing some research on the Internet can you find a sorting algorithm more efficient than the Merge Sort? If you find one please describe it and list your reference. MTH 221 Week 5 Individual Assignment Selected Textbook Exercises Complete 5 questions below. Please review the rubric posted in week 1 for math problems. Submit to your assignment tab. Submit a certificate of originality for this assignment. Ch. 15 of Discrete and Combinatorial Mathematics Exercise 15.1, problems 1a, 2a,4a, 9, & 12 MTH 221 Week 5 Learning Team Research Presentation Submit the final Research Presentation. Please review the rubric posted in week 1 for the team project Have one team member submit to their assignment tab Submit a certificate of originality for this assignment MTH 221 Week 5 DQS DQ 1 · How does Boolean algebra capture the essential properties of logic operations and set operations? DQ 2 · How does the reduction of Boolean expressions to simpler forms resemble the traversal of a tree, from the Week Four material? What sort of Boolean expression would you end up with at the root of the tree? DQ 3 · The introduction of Chapter 15 in your book introduces you to two founders of Boolean algebra and its applications (Boole and Shannon). After performing some research, share with the class some practical applications of Boolean algebra. Please cite your source. DQ 4 · In review of the material you have learned over the past 5 weeks which element has made the biggest impression on you? What element do you think you can use in future work or school applications?

Get MTH 221 entire course :

https://www.justquestionanswer.com/homework-solution-details/58380/mth-221-entire-course-university-of-phoenix

Finite Element Analysis Assignment Help

Finite Element Analysis is a numerical technique for finding approximate solutions to boundary value problems for partial differential equations. The simple equations that model these finite elements are then assembled into a larger system of equations that models the entire problem. Finite Element Analysis then uses variation methods from the calculus of variations to approximate a solution by minimizing an associated error function. MechanicalAssignmentExperts.com provides Finite Element Analysis Assignment help. We provide live one on one help to the students in completing their assignments. Finite Element Analysis assignment help service is one of the remarkable services provided by us as we have all the expertise required in solving the Finite Element Analysis assignments. We assure that our association will truly benefit you in fetching higher grades.