Verfügbarkeit: Electric vehicle engineering

Electric vehicle engineering:

Gespeichert in:

Bibliographische Detailangaben
Hauptverfasser:	Enge, Per (VerfasserIn), Enge, Nick (VerfasserIn), Zoepf, Stephen (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New York McGraw-Hill [2021]
Schlagworte:	Electric vehicles / Batteries / Testing Electric vehicles / Batteries / Design and construction Elektrofahrzeug
Online-Zugang:	FHD01
Beschreibung:	1 Online-Ressource
ISBN:	9781260464061

Internformat

MARC


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505	8		\|a Preface -- 1 The Promise of Electrification -- 2 History of Electric Vehicles -- 2.1 Introduction -- 2.2 Early History -- 2.3 Nineteenth Century -- 2.4 Twentieth Century -- 2.5 Twenty-First Century -- 2.6 Conclusion -- 2.7 Homework Problems -- 3 Vehicle Dynamics -- 3.1 Introduction -- 3.2 Forces Acting on a Rolling Vehicle -- 3.2.1 Aerodynamic Drag (Fad) -- 3.2.2 Rolling Resistance (Frr) -- 3.2.3 Hill Climbing (Fhc) -- 3.2.4 Linear Acceleration (Fla) -- 3.2.5 Angular Acceleration (F?a) -- 3.2.6 Tractive Force (Fte) -- 3.3 Power Required for Rolling Motion -- 3.3.1 Power Required for Real-World Designs -- 3.3.2 Power Required for Air Resista -- and Rolling Resistance -- 3.3.3 Power Required for Hill Climbing -- 3.3.4 Power Required for Acceleration -- 3.4 Modeling Real-World Conditions -- 3.4.1 Modeling v and a over Time -- 3.4.2 Modeling ? over Time -- 3.4.3 Modeling Energy, Efficiency, and Range -- 3.5 Conclusion -- 3.6 Homework Problems -- 4 Motors -- 4.1 Introduction --
505	8		\|a 4.2 The Lorentz Force Law -- 4.3 Coulomb?s Law -- 4.4 Biot-Savart?s Law -- 4.5 Brushed DC Motors -- 4.6 Brushless Motors -- 4.6.1 Brushless DC Motors -- 4.6.2 Brushless AC Motors -- 4.7 Reluctance Motors -- 4.8 Faraday?s Law -- 4.9 AC Induction Motors -- 4.10 Motor Efficiency -- 4.11 Maximum Acceleration -- 4.12 Conclusion -- 4.13 Homework Problems -- 5 Batteries -- 5.1 Introduction -- 5.2 Battery Fundamentals -- 5.3 Lithium-Ion Batteries -- 5.3.1 Cathode (+) -- 5.3.2 Anode (?) -- 5.3.3 Electrolyte -- 5.3.4 Circuit -- 5.3.5 Separator -- 5.3.6 Charging -- 5.3.7 Discharging -- 5.4 Battery Characteristics -- 5.4.1 Cost -- 5.4.2 Energy Storage/Charge Capacity -- 5.4.3 Battery Life -- 5.4.4 Energy Density -- 5.4.5 Specific Power -- 5.4.6 State of Charge and Depth of Discharge -- 5.4.7 Cell and Battery Voltages -- 5.4.8 Charge and Energy Efficiency -- 5.4.9 Battery Temperature -- 5.4.10 Battery Geometry -- 5.5 Electric Vehicle Charging -- 5.5.1 Charging Level --
505	8		\|a 5.5.2 Charging Connectors -- 5.5.3 Charging Process -- 5.6 Conclusion
505	8		\|a 5.7 Homework Problems -- 6 Controllers -- 6.1 Introduction -- 6.2 Circuit Elements -- 6.2.1 Resistors -- 6.2.2 Inductors -- 6.2.3 Capacitors -- 6.2.4 Diodes -- 6.2.5 Transistors -- 6.3 Controllers -- 6.3.1 Step-Down DC Controllers -- 6.3.2 Step-Up/Down DC Controllers -- 6.3.3 AC Controllers -- 6.4 Conclusion -- 6.5 Homework Problems -- 7 Efficiency and Emissions -- 7.1 Energy Efficiency -- 7.1.1 Vehicle Efficiency -- 7.1.2 Charging Efficiency -- 7.1.3 Transmission and Distribution Efficiency -- 7.1.4 Generation Efficiency -- 7.2 Petroleum -- 7.2.1 Diesel -- 7.2.2 Diesel Electric -- 7.2.3 Gasoline -- 7.3 Coal -- 7.3.1 Fischer?Tropsch (F-T) Diesel -- 7.3.2 Coal-Fired Electric -- 7.4 Natural Gas -- 7.4.1 Compressed Natural Gas (CNG) -- 7.4.2 Hydrogen Fuel Cell -- 7.4.3 Natural Gas Electric -- 7.5 Biomass -- 7.5.1 Cellulosic Ethanol -- 7.5.2 Biomass Electric -- 7.6 Land -- 7.6.1 Cellulosic Ethanol -- 7.6.2 Solar Electric -- 7.7 Renewables -- 7.7.1 Renewable Electric -- 7.7.2 Renewable Fuel Cell -- 7.8 Greenhouse Gas Emissions -- 7.8.1 ?Tailpipe? Emissions -- 7.8.2 Lifecycle Emissions -- 7.8.3 Future Emissions -- 7.9 Conclusion -- 7.10 Transportation Planning Assignment -- 8 Incentives and Barriers -- 8.1 Introduction -- 8.2 Incentives -- 8.2.1 Zero-Emission Vehicle Mandates -- 8.2.2 Fleet Emissions Requirements -- 8.2.3 Rebates and Tax Incentives -- 8.2.4 Reduced Vehicle Fees -- 8.2.5 HOV Lane Access -- 8.2.6 Support for Charging -- 8.3 Barriers -- 8.3.1 Range Anxiety -- 8.3.2 Cost -- 8.4 Conclusion -- 8.5 Homework Problems -- 9 The Future of Electric Vehicles -- 9.1 Introduction -- 9.2 Charging -- 9.2.1 Wireless Charging -- 9.2.2 Quick Charging -- 9.3 Battery -- 9.3.1 Increased Range -- 9.3.2 Increased Density -- 9.3.3 Decreased Cost -- 9.4 Innovative Vehicle Designs -- 9.5 Toward Complete Electrification -- 9.6 Conclusion -- 9.7 Homework Problems -- A Project: Building a Model Electric Car -- Index
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Datensatz im Suchindex

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author	Enge, Per Enge, Nick Zoepf, Stephen
author_GND	(DE-588)1060356236
author_facet	Enge, Per Enge, Nick Zoepf, Stephen
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author_sort	Enge, Per
author_variant	p e pe n e ne s z sz
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bvnumber	BV047307626
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contents	Preface -- 1 The Promise of Electrification -- 2 History of Electric Vehicles -- 2.1 Introduction -- 2.2 Early History -- 2.3 Nineteenth Century -- 2.4 Twentieth Century -- 2.5 Twenty-First Century -- 2.6 Conclusion -- 2.7 Homework Problems -- 3 Vehicle Dynamics -- 3.1 Introduction -- 3.2 Forces Acting on a Rolling Vehicle -- 3.2.1 Aerodynamic Drag (Fad) -- 3.2.2 Rolling Resistance (Frr) -- 3.2.3 Hill Climbing (Fhc) -- 3.2.4 Linear Acceleration (Fla) -- 3.2.5 Angular Acceleration (F?a) -- 3.2.6 Tractive Force (Fte) -- 3.3 Power Required for Rolling Motion -- 3.3.1 Power Required for Real-World Designs -- 3.3.2 Power Required for Air Resista -- and Rolling Resistance -- 3.3.3 Power Required for Hill Climbing -- 3.3.4 Power Required for Acceleration -- 3.4 Modeling Real-World Conditions -- 3.4.1 Modeling v and a over Time -- 3.4.2 Modeling ? over Time -- 3.4.3 Modeling Energy, Efficiency, and Range -- 3.5 Conclusion -- 3.6 Homework Problems -- 4 Motors -- 4.1 Introduction -- 4.2 The Lorentz Force Law -- 4.3 Coulomb?s Law -- 4.4 Biot-Savart?s Law -- 4.5 Brushed DC Motors -- 4.6 Brushless Motors -- 4.6.1 Brushless DC Motors -- 4.6.2 Brushless AC Motors -- 4.7 Reluctance Motors -- 4.8 Faraday?s Law -- 4.9 AC Induction Motors -- 4.10 Motor Efficiency -- 4.11 Maximum Acceleration -- 4.12 Conclusion -- 4.13 Homework Problems -- 5 Batteries -- 5.1 Introduction -- 5.2 Battery Fundamentals -- 5.3 Lithium-Ion Batteries -- 5.3.1 Cathode (+) -- 5.3.2 Anode (?) -- 5.3.3 Electrolyte -- 5.3.4 Circuit -- 5.3.5 Separator -- 5.3.6 Charging -- 5.3.7 Discharging -- 5.4 Battery Characteristics -- 5.4.1 Cost -- 5.4.2 Energy Storage/Charge Capacity -- 5.4.3 Battery Life -- 5.4.4 Energy Density -- 5.4.5 Specific Power -- 5.4.6 State of Charge and Depth of Discharge -- 5.4.7 Cell and Battery Voltages -- 5.4.8 Charge and Energy Efficiency -- 5.4.9 Battery Temperature -- 5.4.10 Battery Geometry -- 5.5 Electric Vehicle Charging -- 5.5.1 Charging Level -- 5.5.2 Charging Connectors -- 5.5.3 Charging Process -- 5.6 Conclusion 5.7 Homework Problems -- 6 Controllers -- 6.1 Introduction -- 6.2 Circuit Elements -- 6.2.1 Resistors -- 6.2.2 Inductors -- 6.2.3 Capacitors -- 6.2.4 Diodes -- 6.2.5 Transistors -- 6.3 Controllers -- 6.3.1 Step-Down DC Controllers -- 6.3.2 Step-Up/Down DC Controllers -- 6.3.3 AC Controllers -- 6.4 Conclusion -- 6.5 Homework Problems -- 7 Efficiency and Emissions -- 7.1 Energy Efficiency -- 7.1.1 Vehicle Efficiency -- 7.1.2 Charging Efficiency -- 7.1.3 Transmission and Distribution Efficiency -- 7.1.4 Generation Efficiency -- 7.2 Petroleum -- 7.2.1 Diesel -- 7.2.2 Diesel Electric -- 7.2.3 Gasoline -- 7.3 Coal -- 7.3.1 Fischer?Tropsch (F-T) Diesel -- 7.3.2 Coal-Fired Electric -- 7.4 Natural Gas -- 7.4.1 Compressed Natural Gas (CNG) -- 7.4.2 Hydrogen Fuel Cell -- 7.4.3 Natural Gas Electric -- 7.5 Biomass -- 7.5.1 Cellulosic Ethanol -- 7.5.2 Biomass Electric -- 7.6 Land -- 7.6.1 Cellulosic Ethanol -- 7.6.2 Solar Electric -- 7.7 Renewables -- 7.7.1 Renewable Electric -- 7.7.2 Renewable Fuel Cell -- 7.8 Greenhouse Gas Emissions -- 7.8.1 ?Tailpipe? Emissions -- 7.8.2 Lifecycle Emissions -- 7.8.3 Future Emissions -- 7.9 Conclusion -- 7.10 Transportation Planning Assignment -- 8 Incentives and Barriers -- 8.1 Introduction -- 8.2 Incentives -- 8.2.1 Zero-Emission Vehicle Mandates -- 8.2.2 Fleet Emissions Requirements -- 8.2.3 Rebates and Tax Incentives -- 8.2.4 Reduced Vehicle Fees -- 8.2.5 HOV Lane Access -- 8.2.6 Support for Charging -- 8.3 Barriers -- 8.3.1 Range Anxiety -- 8.3.2 Cost -- 8.4 Conclusion -- 8.5 Homework Problems -- 9 The Future of Electric Vehicles -- 9.1 Introduction -- 9.2 Charging -- 9.2.1 Wireless Charging -- 9.2.2 Quick Charging -- 9.3 Battery -- 9.3.1 Increased Range -- 9.3.2 Increased Density -- 9.3.3 Decreased Cost -- 9.4 Innovative Vehicle Designs -- 9.5 Toward Complete Electrification -- 9.6 Conclusion -- 9.7 Homework Problems -- A Project: Building a Model Electric Car -- Index
ctrlnum	(OCoLC)1256410625 (DE-599)BVBBV047307626
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discipline_str_mv	Verkehr / Transport
format	Electronic eBook
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publisher	McGraw-Hill
record_format	marc
spelling	Enge, Per Verfasser (DE-588)1060356236 aut Electric vehicle engineering Per Enge, Nick Enge, Stephen Zoepf New York McGraw-Hill [2021] 1 Online-Ressource txt rdacontent c rdamedia cr rdacarrier Preface -- 1 The Promise of Electrification -- 2 History of Electric Vehicles -- 2.1 Introduction -- 2.2 Early History -- 2.3 Nineteenth Century -- 2.4 Twentieth Century -- 2.5 Twenty-First Century -- 2.6 Conclusion -- 2.7 Homework Problems -- 3 Vehicle Dynamics -- 3.1 Introduction -- 3.2 Forces Acting on a Rolling Vehicle -- 3.2.1 Aerodynamic Drag (Fad) -- 3.2.2 Rolling Resistance (Frr) -- 3.2.3 Hill Climbing (Fhc) -- 3.2.4 Linear Acceleration (Fla) -- 3.2.5 Angular Acceleration (F?a) -- 3.2.6 Tractive Force (Fte) -- 3.3 Power Required for Rolling Motion -- 3.3.1 Power Required for Real-World Designs -- 3.3.2 Power Required for Air Resista -- and Rolling Resistance -- 3.3.3 Power Required for Hill Climbing -- 3.3.4 Power Required for Acceleration -- 3.4 Modeling Real-World Conditions -- 3.4.1 Modeling v and a over Time -- 3.4.2 Modeling ? over Time -- 3.4.3 Modeling Energy, Efficiency, and Range -- 3.5 Conclusion -- 3.6 Homework Problems -- 4 Motors -- 4.1 Introduction -- 4.2 The Lorentz Force Law -- 4.3 Coulomb?s Law -- 4.4 Biot-Savart?s Law -- 4.5 Brushed DC Motors -- 4.6 Brushless Motors -- 4.6.1 Brushless DC Motors -- 4.6.2 Brushless AC Motors -- 4.7 Reluctance Motors -- 4.8 Faraday?s Law -- 4.9 AC Induction Motors -- 4.10 Motor Efficiency -- 4.11 Maximum Acceleration -- 4.12 Conclusion -- 4.13 Homework Problems -- 5 Batteries -- 5.1 Introduction -- 5.2 Battery Fundamentals -- 5.3 Lithium-Ion Batteries -- 5.3.1 Cathode (+) -- 5.3.2 Anode (?) -- 5.3.3 Electrolyte -- 5.3.4 Circuit -- 5.3.5 Separator -- 5.3.6 Charging -- 5.3.7 Discharging -- 5.4 Battery Characteristics -- 5.4.1 Cost -- 5.4.2 Energy Storage/Charge Capacity -- 5.4.3 Battery Life -- 5.4.4 Energy Density -- 5.4.5 Specific Power -- 5.4.6 State of Charge and Depth of Discharge -- 5.4.7 Cell and Battery Voltages -- 5.4.8 Charge and Energy Efficiency -- 5.4.9 Battery Temperature -- 5.4.10 Battery Geometry -- 5.5 Electric Vehicle Charging -- 5.5.1 Charging Level -- 5.5.2 Charging Connectors -- 5.5.3 Charging Process -- 5.6 Conclusion 5.7 Homework Problems -- 6 Controllers -- 6.1 Introduction -- 6.2 Circuit Elements -- 6.2.1 Resistors -- 6.2.2 Inductors -- 6.2.3 Capacitors -- 6.2.4 Diodes -- 6.2.5 Transistors -- 6.3 Controllers -- 6.3.1 Step-Down DC Controllers -- 6.3.2 Step-Up/Down DC Controllers -- 6.3.3 AC Controllers -- 6.4 Conclusion -- 6.5 Homework Problems -- 7 Efficiency and Emissions -- 7.1 Energy Efficiency -- 7.1.1 Vehicle Efficiency -- 7.1.2 Charging Efficiency -- 7.1.3 Transmission and Distribution Efficiency -- 7.1.4 Generation Efficiency -- 7.2 Petroleum -- 7.2.1 Diesel -- 7.2.2 Diesel Electric -- 7.2.3 Gasoline -- 7.3 Coal -- 7.3.1 Fischer?Tropsch (F-T) Diesel -- 7.3.2 Coal-Fired Electric -- 7.4 Natural Gas -- 7.4.1 Compressed Natural Gas (CNG) -- 7.4.2 Hydrogen Fuel Cell -- 7.4.3 Natural Gas Electric -- 7.5 Biomass -- 7.5.1 Cellulosic Ethanol -- 7.5.2 Biomass Electric -- 7.6 Land -- 7.6.1 Cellulosic Ethanol -- 7.6.2 Solar Electric -- 7.7 Renewables -- 7.7.1 Renewable Electric -- 7.7.2 Renewable Fuel Cell -- 7.8 Greenhouse Gas Emissions -- 7.8.1 ?Tailpipe? Emissions -- 7.8.2 Lifecycle Emissions -- 7.8.3 Future Emissions -- 7.9 Conclusion -- 7.10 Transportation Planning Assignment -- 8 Incentives and Barriers -- 8.1 Introduction -- 8.2 Incentives -- 8.2.1 Zero-Emission Vehicle Mandates -- 8.2.2 Fleet Emissions Requirements -- 8.2.3 Rebates and Tax Incentives -- 8.2.4 Reduced Vehicle Fees -- 8.2.5 HOV Lane Access -- 8.2.6 Support for Charging -- 8.3 Barriers -- 8.3.1 Range Anxiety -- 8.3.2 Cost -- 8.4 Conclusion -- 8.5 Homework Problems -- 9 The Future of Electric Vehicles -- 9.1 Introduction -- 9.2 Charging -- 9.2.1 Wireless Charging -- 9.2.2 Quick Charging -- 9.3 Battery -- 9.3.1 Increased Range -- 9.3.2 Increased Density -- 9.3.3 Decreased Cost -- 9.4 Innovative Vehicle Designs -- 9.5 Toward Complete Electrification -- 9.6 Conclusion -- 9.7 Homework Problems -- A Project: Building a Model Electric Car -- Index Electric vehicles / Batteries / Testing Electric vehicles / Batteries / Design and construction Electric vehicles / Batteries / Testing fast Elektrofahrzeug (DE-588)4151795-7 gnd rswk-swf Elektrofahrzeug (DE-588)4151795-7 s DE-604 Enge, Nick Verfasser aut Zoepf, Stephen Verfasser aut Erscheint auch als Druck-Ausgabe 978-12-6046407-8
spellingShingle	Enge, Per Enge, Nick Zoepf, Stephen Electric vehicle engineering Preface -- 1 The Promise of Electrification -- 2 History of Electric Vehicles -- 2.1 Introduction -- 2.2 Early History -- 2.3 Nineteenth Century -- 2.4 Twentieth Century -- 2.5 Twenty-First Century -- 2.6 Conclusion -- 2.7 Homework Problems -- 3 Vehicle Dynamics -- 3.1 Introduction -- 3.2 Forces Acting on a Rolling Vehicle -- 3.2.1 Aerodynamic Drag (Fad) -- 3.2.2 Rolling Resistance (Frr) -- 3.2.3 Hill Climbing (Fhc) -- 3.2.4 Linear Acceleration (Fla) -- 3.2.5 Angular Acceleration (F?a) -- 3.2.6 Tractive Force (Fte) -- 3.3 Power Required for Rolling Motion -- 3.3.1 Power Required for Real-World Designs -- 3.3.2 Power Required for Air Resista -- and Rolling Resistance -- 3.3.3 Power Required for Hill Climbing -- 3.3.4 Power Required for Acceleration -- 3.4 Modeling Real-World Conditions -- 3.4.1 Modeling v and a over Time -- 3.4.2 Modeling ? over Time -- 3.4.3 Modeling Energy, Efficiency, and Range -- 3.5 Conclusion -- 3.6 Homework Problems -- 4 Motors -- 4.1 Introduction -- 4.2 The Lorentz Force Law -- 4.3 Coulomb?s Law -- 4.4 Biot-Savart?s Law -- 4.5 Brushed DC Motors -- 4.6 Brushless Motors -- 4.6.1 Brushless DC Motors -- 4.6.2 Brushless AC Motors -- 4.7 Reluctance Motors -- 4.8 Faraday?s Law -- 4.9 AC Induction Motors -- 4.10 Motor Efficiency -- 4.11 Maximum Acceleration -- 4.12 Conclusion -- 4.13 Homework Problems -- 5 Batteries -- 5.1 Introduction -- 5.2 Battery Fundamentals -- 5.3 Lithium-Ion Batteries -- 5.3.1 Cathode (+) -- 5.3.2 Anode (?) -- 5.3.3 Electrolyte -- 5.3.4 Circuit -- 5.3.5 Separator -- 5.3.6 Charging -- 5.3.7 Discharging -- 5.4 Battery Characteristics -- 5.4.1 Cost -- 5.4.2 Energy Storage/Charge Capacity -- 5.4.3 Battery Life -- 5.4.4 Energy Density -- 5.4.5 Specific Power -- 5.4.6 State of Charge and Depth of Discharge -- 5.4.7 Cell and Battery Voltages -- 5.4.8 Charge and Energy Efficiency -- 5.4.9 Battery Temperature -- 5.4.10 Battery Geometry -- 5.5 Electric Vehicle Charging -- 5.5.1 Charging Level -- 5.5.2 Charging Connectors -- 5.5.3 Charging Process -- 5.6 Conclusion 5.7 Homework Problems -- 6 Controllers -- 6.1 Introduction -- 6.2 Circuit Elements -- 6.2.1 Resistors -- 6.2.2 Inductors -- 6.2.3 Capacitors -- 6.2.4 Diodes -- 6.2.5 Transistors -- 6.3 Controllers -- 6.3.1 Step-Down DC Controllers -- 6.3.2 Step-Up/Down DC Controllers -- 6.3.3 AC Controllers -- 6.4 Conclusion -- 6.5 Homework Problems -- 7 Efficiency and Emissions -- 7.1 Energy Efficiency -- 7.1.1 Vehicle Efficiency -- 7.1.2 Charging Efficiency -- 7.1.3 Transmission and Distribution Efficiency -- 7.1.4 Generation Efficiency -- 7.2 Petroleum -- 7.2.1 Diesel -- 7.2.2 Diesel Electric -- 7.2.3 Gasoline -- 7.3 Coal -- 7.3.1 Fischer?Tropsch (F-T) Diesel -- 7.3.2 Coal-Fired Electric -- 7.4 Natural Gas -- 7.4.1 Compressed Natural Gas (CNG) -- 7.4.2 Hydrogen Fuel Cell -- 7.4.3 Natural Gas Electric -- 7.5 Biomass -- 7.5.1 Cellulosic Ethanol -- 7.5.2 Biomass Electric -- 7.6 Land -- 7.6.1 Cellulosic Ethanol -- 7.6.2 Solar Electric -- 7.7 Renewables -- 7.7.1 Renewable Electric -- 7.7.2 Renewable Fuel Cell -- 7.8 Greenhouse Gas Emissions -- 7.8.1 ?Tailpipe? Emissions -- 7.8.2 Lifecycle Emissions -- 7.8.3 Future Emissions -- 7.9 Conclusion -- 7.10 Transportation Planning Assignment -- 8 Incentives and Barriers -- 8.1 Introduction -- 8.2 Incentives -- 8.2.1 Zero-Emission Vehicle Mandates -- 8.2.2 Fleet Emissions Requirements -- 8.2.3 Rebates and Tax Incentives -- 8.2.4 Reduced Vehicle Fees -- 8.2.5 HOV Lane Access -- 8.2.6 Support for Charging -- 8.3 Barriers -- 8.3.1 Range Anxiety -- 8.3.2 Cost -- 8.4 Conclusion -- 8.5 Homework Problems -- 9 The Future of Electric Vehicles -- 9.1 Introduction -- 9.2 Charging -- 9.2.1 Wireless Charging -- 9.2.2 Quick Charging -- 9.3 Battery -- 9.3.1 Increased Range -- 9.3.2 Increased Density -- 9.3.3 Decreased Cost -- 9.4 Innovative Vehicle Designs -- 9.5 Toward Complete Electrification -- 9.6 Conclusion -- 9.7 Homework Problems -- A Project: Building a Model Electric Car -- Index Electric vehicles / Batteries / Testing Electric vehicles / Batteries / Design and construction Electric vehicles / Batteries / Testing fast Elektrofahrzeug (DE-588)4151795-7 gnd
subject_GND	(DE-588)4151795-7
title	Electric vehicle engineering
title_auth	Electric vehicle engineering
title_exact_search	Electric vehicle engineering
title_exact_search_txtP	Electric vehicle engineering
title_full	Electric vehicle engineering Per Enge, Nick Enge, Stephen Zoepf
title_fullStr	Electric vehicle engineering Per Enge, Nick Enge, Stephen Zoepf
title_full_unstemmed	Electric vehicle engineering Per Enge, Nick Enge, Stephen Zoepf
title_short	Electric vehicle engineering
title_sort	electric vehicle engineering
topic	Electric vehicles / Batteries / Testing Electric vehicles / Batteries / Design and construction Electric vehicles / Batteries / Testing fast Elektrofahrzeug (DE-588)4151795-7 gnd
topic_facet	Electric vehicles / Batteries / Testing Electric vehicles / Batteries / Design and construction Elektrofahrzeug
work_keys_str_mv	AT engeper electricvehicleengineering AT engenick electricvehicleengineering AT zoepfstephen electricvehicleengineering

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