Further Electrical and Electronic Principles is a core text for pre-degree courses in electrical and electronic engineering courses. The coverage of this new edition has been brought in line with the specialist unit 'Further Electrical Principles' of the 2007 BTEC National Engineering specification from Edexcel. As the book follows a logical topic progression rather than a particular syllabus, it is also suitable for other Level 3 students on vocational courses such as Vocational AS/A Level, City & Guilds courses and NVQs.More advanced material has also been included, making this text also suitable for HNC/HND and foundation degree courses.Each chapter starts with learning outcomes tied to the syllabus. All theory is explained in detail and backed up with numerous worked examples. Students can test their understanding with end of chapter assignment questions for which answers are provided. The book also includes suggested practical assignments and handy summaries of equations. In this new edition, the layout has been improved and colour has been added to make the book more accessible for students.The textbook is supported with a free companion website featuring supplementary worked examples and additional chapters.
Further Electrical and Electronic Principles is a core text for pre-degree courses in electrical and electronic engineering courses. The coverage of this new edition has been brought in line with the specialist unit 'Further Electrical Principles' of the 2007 BTEC National Engineering specification from Edexcel. As the book follows a logical topic progression rather than a particular syllabus, it is also suitable for other Level 3 students on vocational courses such as Vocational AS/A Level, City & Guilds courses and NVQs.More advanced material has also been included, making this text also suitable for HNC/HND and foundation degree courses.
further electrical and electronic principles robertson, christopher||
Prior to joining Apollo in 2015, KK was Partner at Rezone Investment Advisors. Previously, he was Executive Vice President in the DLF Group. He graduated from the Indian Institute of Technology Madras (IIT Madras) with a B.Tech degree in electrical engineering (electronics) and received his PGDM (MBA) from the Indian Institute of Management, Calcutta.
Mr. Raman joined Apollo in 2015 in the AGRE-Asia DEL department, and is responsible for (i) conducting business transaction due diligence during early stage, including assessing developer's execution capability, micro market, project location assessment and validating assumptions at all stages of a deal, (ii) portfolio management post deal closure by monitoring projects on a regular basis, (iii) originating transactions/deals by building and sustaining relationships with reputed developers, and (iv) covering the market in South India to create a pipeline of transaction opportunities for Apollo Real Estate. Mr. Raman was a Partner at Rezone Investment Advisors Pvt Ltd from October 2012 to May 2015. He was Executive Vice President in the DLF Group, the largest Real Estate Company in India, from November 2006 to September 2012. Mr. Raman currently serves on the board of directors of New Link Overseas Finance Limited and is a member of the Board of Trustees of Indian Institute of Technology Madras Alumni Charitable Trust. He previously served on the Governing Council of The Indus Entrepreneurs, Chennai, the Steering Committee of IIT Madras Research Park, as Secretary of IIT Madras Alumni Association, President of the Rotary Club of Madras East, District Chairman of Community Service, and District Chairman Youth Service in Rotary International Dist 3230. Mr. Raman graduated from the Indian Institute of Technology Madras (IIT Madras) with a B.Tech degree in electrical engineering (electronics) and received his PGDM (MBA) from the Indian Institute of Management, Calcutta.
Amit holds a Bachelor of Engineering in electronics and communication from Delhi College of Engineering, a Master of Science in electrical engineering from Arizona State University, and an MBA from the University of California at Berkeley.
Motor fuel tax revenues may be the next most unstable revenue source as well as an example of how technological developments can erode a tax base. Motor fuel taxes are becoming much less efficient raising revenue from drivers because vehicles drive further on each gallon of gas and due to the growth of electrical vehicles sales.[22]
The future global economy is likely to consume ever more energy, while the tremendous risk of climate change associated with the use of fossil fuels makes energy supply increasingly challenging. One of the promising approaches is the recovery of waste heat with the help of thermoelectric (TE) materials. The performance of TE materials is determined by the dimensionless temperature-dependent figure of merit ZT, which is related to the Seebeck coefficient (S), electrical conductivity (σ), absolute temperature, and thermal conductivity. It is quite complex to achieve large power factor S2σ as the electronic transport properties are interrelated through carrier concentration, scattering, and bandstructure.
Then we present a first-principles framework to employ an energy-dependent scattering process treatment, to exclude the arbitrary error from RTA. Based on DFT and density-functional perturbation theory (DFPT), we compute the electronic bandstructures, phonon dispersion relations, and electron-phonon matrix elements, to extract deformation potentials. Then we use an advanced home-developed numerical simulator, which can allow for different scattering mechanisms such as electron-phonon scattering and ionized impurity scattering, to adopt the proper and full energy and momentum dependencies of electron-phonon scattering to compute the electronic transport properties. This method would be the middle ground computationally between the constant RTA and first-principles relaxation time extraction.
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