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Recognised Accreditation This course is accredited by continuing professional development (CPD). CPD UK is globally recognised by employers, professional organisations, and academic institutions, thus a certificate from CPD Certification Service creates value towards your professional goal and achievement. Course Curriculum Generation of High Voltage Introduction to Electrical Power System and Why Do We Need High Voltage 00:24:00 Types of High Voltage 00:16:00 Generation of High Voltage AC at Power Frequency 00:30:00 Generation of High Voltage High Frequency AC 00:14:00 Generation of High Voltage Impulse Part 1 00:37:00 Generation of High Voltage Impulse Part 2 00:13:00 Generation of High Voltage DC Part 1 00:42:00 Generation of High Voltage DC Part 2 00:44:00 Obtain Your Certificate Order Your Certificate of Achievement 00:00:00 Get Your Insurance Now Get Your Insurance Now 00:00:00 Feedback Feedback 00:00:00

Explore the complexities of seismic interpretation in carbonates through our dynamic classroom training course. Energyedge delivers cutting-edge instruction and valuable insights.

Mechanical Engineering: Mechanical Engineering Would you like to work in the field of mechanical engineering? Our mechanical engineering course will help you understand engineering mathematics, fundamental physics, and an introduction to mechanical engineering. This mechanical engineering course explains heat transport, thermodynamics, and materials science. This mechanical engineering course discusses aerodynamics and fluid mechanics. Moreover, the mechanical engineering course covers kinematics, structural analysis, machine design, and the mechanics of solids. Through the mechanical engineering course, you will comprehend dynamics, control systems, and capstone design projects. Additionally, the mechanical engineering course describes technology, sustainability, and renewable energy techniques. If you are interested in learning about experimental techniques, appropriate data analysis, professional growth, and engineering ethics, enrol our mechanical engineering course soon! Special Offers of this Mechanical Engineering: Mechanical Engineering Course: This Mechanical Engineering: Mechanical Engineering Course includes a FREE PDF Certificate. Lifetime access to this Mechanical Engineering: Mechanical Engineering Course Instant access to this Mechanical Engineering: Mechanical Engineering Course 24/7 Support Available to this Mechanical Engineering: Mechanical Engineering Course Mechanical Engineering: Mechanical Engineering Elevate your career with our in-depth Mechanical Engineering Course! This program covers essential engineering mathematics, fundamental physics, and an introduction to core mechanical engineering concepts. You will delve into heat transport, thermodynamics, and materials science. Advanced topics include aerodynamics, fluid mechanics, kinematics, structural analysis, and machine design. Our curriculum also includes the mechanics of solids, dynamics, control systems, and engaging capstone design projects. Additionally, you'll learn about cutting-edge technology, sustainability, and renewable energy techniques. Develop practical skills with hands-on experimental methods, accurate data analysis, and a strong emphasis on professional growth and engineering ethics. Enroll today to become a proficient and innovative mechanical engineer! Who is this course for? Mechanical Engineering: Mechanical Engineering Anyone interested in mechanical engineering should pursue the mechanical engineering course. Requirements Mechanical Engineering: Mechanical Engineering To enrol in this Mechanical Engineering: Mechanical Engineering Course, students must fulfil the following requirements: Good Command over English language is mandatory to enrol in our Mechanical Engineering: Mechanical Engineering Course Be energetic and self-motivated to complete our Mechanical Engineering: Mechanical Engineering Course Basic computer Skill is required to complete our Mechanical Engineering: Mechanical Engineering Course If you want to enrol in our Mechanical Engineering: Mechanical Engineering Course, you must be at least 15 years old. Career path Mechanical Engineering: Mechanical Engineering Successful completion of the mechanical engineering course can lead to a variety of rewarding career options in mechanical engineering-related industries.

This course is an excellent resource to learn network programming using Python. With the help of practical examples, you will learn how to automate networks with Telnet, Secure Shell (SSH), Paramiko, Netmiko, and Network Automation and Programmability Abstraction Layer with Multivendor support (NAPALM).

OOAD training course description A workshop course providing thorough practical knowledge of object oriented analysis and design methods. What will you learn Perform Systems Analysis with Object Oriented methods. Identify key classes and objects. Expand and refine OO problem domain models. Design Class hierarchies using inheritance and polymorphism. Design programs with Object Oriented methods. OOAD training course details Who will benefit: System analysts, designers, programmers and project managers. Prerequisites: It is desirable that delegates have experience of programming in C++/Java or some other OOP language. Duration 5 days OOAD training course contents What is OO? Classes, objects, messages, encapsulation, associations, inheritance, polymorphism, reusability. What is Systems Analysis and design? Data flow diagrams, structure diagrams. The OO approach. OOA The problem domain and object modelling. Identifying classes and objects. Generalisation and inheritance. Defining attributes and methods. OOD Refining the OOA results. Designing the User Interface. Designing the algorithms and data structures using objects. Designing the methods. OOP Prototyping. Implementing OOD with OOPs and OOPLs.

Level 7 QLS Endorsed Diploma | 180 CPD Points | +Gifts: QLS Certificate + PDF Certificate | 24/7 Learner Support

Selling Skills for Professionals: Part 1 Prospecting   Course Description   Copyright Ross Maynard 2021   Course Description Welcome to Selling Skills for Professionals: Part 1 Prospecting. If you are an accountant, a lawyer, a consulting engineer, a surveyor, an actuary, a management consultant, an events organiser, an HR professional or any other form of professional businessperson, and you need to identify and develop new clients, then this course is for you This is part 1 of a two-part course on selling skills for professionals. In Part 1 I cover prospecting, that is identifying potential future clients and making the initial approach. In Part 2 of Selling Skills for Professionals I cover the sales process once you have a make contact with a potential client. Selling Skills for Professionals covers high involvement purchases where the commitment is a significant one for the purchaser. This covers relatively expensive business investments, but also purchase agreements which the purchaser feels will have a significant impact on their business – for example engaging an accountant or a lawyer, or a management consultant, and so on. With a high involvement purchase, the client typically will consider a range of alternatives; will review a variety of information sources; and will evaluate product and service attributes in detail. This means that there is a relatively high barrier to surmount to get the potential client’s attention. A solid approach to prospecting and a well-structured sales process can increase that conversion rate and enhance your success in securing clients who will remain with you for the long term. That is the purpose of this course.   I hope you enjoy the course.     Key Learning Points  On completion of the course, delegates will be able to: Describe the scope and purpose of sales prospecting for professional services Understand the five rules of selling professional services Develop a branding statement for themselves and their organisation Define the criteria for the clients they wish to target Appreciate the importance of client pain points and how to identify them Prepare materials for prospecting Create a cold calling script for prospecting Write a cold email or LinkedIn message to prospects including a strong subject line Understand the sorts of questions they can use to stimulate client engagement in a discussion Move prospects onto the next stage of the selling process     Curriculum Module 1: First Principles in Selling Professional Services Lesson 1: The Five Rules of Selling Professional Services Lesson 2: The Five Rules of Selling Professional Services Lesson 3: Branding   Module 2: Getting Ready to Prospect Lesson 4: Identifying Prospects Lesson 5: Client Pain Points and the Purpose of Prospecting Lesson 6: Preparing to Prospect   Module 3: Making the Approach Lesson 7: Seven Seconds to make an Impact Lesson 8: Crafting the Message: Cold Calling Lesson 9: Crafting the Message: Cold Email Lesson 10: Sample Scripts for Cold Email  Lesson 11: Trigger Questions Lesson 12: Getting Ready to Sell: The Next Stage  Lesson 13: Key Learning Points in Prospecting     Pre-Course Requirements There are no pre-course requirements     Additional Resources None     Course Tutor Your tutor is Ross Maynard. Ross is a Fellow of the Chartered Institute of Management Accountants in the UK and has 30 years’ experience as a process improvement consultant specialising in business processes and organisation development. Ross is also a professional author of online training courses. Ross lives in Scotland with his wife, daughter and Cocker Spaniel

Power Analysis in AC Circuits Course Overview This course on Power Analysis in AC Circuits provides a comprehensive exploration of the principles and calculations essential for understanding power in alternating current systems. Learners will gain a solid grasp of real, reactive, and complex power, along with power factor correction and the analysis of power in three-phase circuits. The course emphasises the theoretical foundations and mathematical techniques necessary for accurate power analysis. By completing this course, students will be equipped to evaluate and optimise AC power systems effectively, enhancing their technical competence for roles in electrical engineering, energy management, and related fields. Course Description This course delves deeply into the concepts and calculations related to power in AC circuits, starting from fundamental definitions to advanced power factor correction and three-phase power analysis. Topics include power and energy definitions, the behaviour of power in reactive circuits, power trigonometrical identities, and the interpretation of complex power. Learners will develop skills in analysing real and reactive power components and understanding their impact on circuit efficiency. Additionally, the course covers methods to improve power factor and explores power dynamics in three-phase systems. Throughout, emphasis is placed on theoretical understanding and analytical methods to equip learners with the expertise to assess and manage AC power circuits in professional settings. Power Analysis in AC Circuits Curriculum Module 01: Introduction Module 02: Power & Energy Defined Module 03: Power in Reactive Circuits Part A Module 04: Power in Reactive Circuits Part B Module 05: Power Trig Identities Module 06: Power, Real and Reactive Module 07: Power More on Average, Real & Reactive Module 08: Power – Complex Power Module 09: Power Factor Correction Module 10: Power in 3 Phase Circuits (See full curriculum) Who is this course for? Individuals seeking to understand and analyse power in AC electrical systems. Professionals aiming to enhance their knowledge of power factor correction and circuit efficiency. Beginners with an interest in electrical engineering and power systems. Technicians and engineers involved in energy management and electrical maintenance. Career Path Electrical Engineer Power Systems Analyst Energy Manager Electrical Design Engineer Electrical Maintenance Technician Renewable Energy Specialist

Develop Big Data Pipelines with R, Sparklyr & Power BI Course Overview: This course offers a comprehensive exploration of building and managing big data pipelines using R, Sparklyr, and Power BI. Learners will gain valuable insight into the entire process, from setting up and installing the necessary tools to creating effective ETL pipelines, implementing machine learning techniques, and visualising data with Power BI. The course is designed to provide a strong foundation in data engineering, enabling learners to handle large datasets, optimise data workflows, and communicate insights clearly using visual tools. By the end of this course, learners will have the expertise to work with big data, manage ETL pipelines, and use Sparklyr and Power BI to drive data-driven decisions in various professional settings. Course Description: This course delves into the core concepts and techniques for managing big data using R, Sparklyr, and Power BI. It covers a range of topics including the setup and installation of necessary tools, building ETL pipelines with Sparklyr, applying machine learning models to big data, and using Power BI for creating powerful visualisations. Learners will explore how to extract, transform, and load large datasets, and will develop a strong understanding of big data architecture. They will also gain proficiency in visualising complex data and presenting findings effectively. The course is structured to enhance learners' problem-solving abilities and their competence in big data environments, equipping them with the skills needed to manage and interpret vast amounts of information. Develop Big Data Pipelines with R, Sparklyr & Power BI Curriculum: Module 01: Introduction Module 02: Setup and Installations Module 03: Building the Big Data ETL Pipeline with Sparklyr Module 04: Big Data Machine Learning with Sparklyr Module 05: Data Visualisation with Power BI (See full curriculum) Who is this course for? Individuals seeking to understand big data pipelines. Professionals aiming to expand their data engineering skills. Beginners with an interest in data analytics and big data tools. Anyone looking to enhance their ability to analyse and visualise data. Career Path: Data Engineer Data Analyst Data Scientist Business Intelligence Analyst Machine Learning Engineer Big Data Consultant

Short Circuit Analysis for HV Three Phase Systems Course Overview This course on Short Circuit Analysis for HV Three Phase Systems provides an in-depth exploration of fault analysis in high voltage electrical systems. Focusing on the theoretical and practical application of various analysis methods, the course equips learners with the skills to assess and model electrical faults in three-phase systems. By covering core topics such as symmetrical and asymmetrical faults, per unit analysis, and transformer modelling, this course ensures that participants are prepared for real-world fault diagnosis and system modelling challenges. Learners will gain a thorough understanding of fault behaviour and how to perform accurate short circuit analysis, which is essential for enhancing system stability and safety. Course Description The course delves into the key aspects of short circuit and fault analysis for high voltage (HV) three-phase systems. Participants will explore various analysis techniques, including per-phase and per-unit analysis, along with the importance of base changes and transformer modelling. The course introduces symmetrical components and covers advanced topics such as asymmetrical three-phase fault analysis and system modelling. Learners will develop a clear understanding of how to assess the impact of short circuits on the electrical network and identify the appropriate mitigation strategies. The course is designed to provide learners with both the theoretical foundation and technical knowledge to perform detailed fault analysis and optimise system performance. Short Circuit Analysis for HV Three Phase Systems Curriculum Module 01: Introduction to Short Circuit Analysis for HV Three Phase Systems Module 02: Short Circuit & Fault Analysis Overview Module 03: Per Phase Analysis Module 04: Per Unit Analysis Module 05: Change of Base Module 06: Transformers & Per Unit Analysis Module 07: Symmetrical Components Module 08: Asymmetrical Three Phase Fault Analysis Module 09: System Modeling (See full curriculum) Who is this course for? Individuals seeking to understand short circuit analysis in electrical systems. Professionals aiming to enhance their knowledge in HV power system analysis. Beginners with an interest in electrical engineering and fault analysis. Engineers looking to advance their skills in power system design and fault management. Career Path Electrical Engineer Power System Analyst HV Systems Designer Electrical Maintenance Engineer Power Network Consultant Utility System Planner