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![education - MOTOR 1. What_is it? device that converts ELECTRICAL ENERGY A Pushing intol MECHANICAL ENERGY charge Things move Opposife of GENERATOR makes 0 How it Works (Simple Analogy) 2 pushing charge Think of bur wqTer wheel 0 loop' wafer pump through Like al 0 Tnduced EMH electrons pushes Key Principle FARADAYS LAW 3. The MAGNETIC conductor if is induced An EMF in 0 linking chonges: FLUX itl క్ైి induced volfage (EMF) V= -L(dt) V rote of chonge of current di dt Key Components 4 B-field energy ( a coil Coil (Electromagnet) 00+ slip rings and brushes: Rings Slip & Brushes Creates B-field ! Sfrong Magnets )$ N Types & Formula] 5 AC Motor (using slip rings) (using commutator DC Mofor (Approx. Formulq ! ) F= n * B*A* [* sin(o) F= output force A = coil area current n = number of Turns I = B-field densify DC Mofor uses commuTqTor T0 reverse currenT Nos direcrion every half Turn ! MOTOR 1. What_is it? device that converts ELECTRICAL ENERGY A Pushing intol MECHANICAL ENERGY charge Things move Opposife of GENERATOR makes 0 How it Works (Simple Analogy) 2 pushing charge Think of wqTer wheel 0 loop' wafer pump through Like al 0 Tnduced EMH electrons pushes Key Principle FARADAYS LAW 3. The MAGNETIC conductor if is induced An EMF in 0 linking chonges: FLUX itl క్ైి induced volfage (EMF) V= -L(dt) V rote of chonge of current di dt Key Components 4 B-field energy ( a coil Coil (Electromagnet) 00+ slip rings and brushes: Rings Slip & Brushes Creates B-field ! Sfrong Magnets )$ N Types & Formula] 5 AC Motor (using slip rings) (using commutator DC Mofor (Approx. Formulq ! ) F= n * B*A* [* sin(o) F= output force A = coil area current n = number of Turns I = B-field densify DC Mofor uses commuTqTor T0 reverse currenT Nos direcrion every half Turn ! - ShareChat](https://cdn4.sharechat.com/bd5223f_s1w/compressed_gm_40_img_457526_27fceb9e_1775527454820_sc.jpg?tenant=sc&referrer=pwa-sharechat-service&f=820_sc.jpg "education - MOTOR 1. What_is it? device that converts ELECTRICAL ENERGY A Pushing intol MECHANICAL ENERGY charge Things move Opposife of GENERATOR makes 0 How it Works (Simple Analogy) 2 pushing charge Think of bur wqTer wheel 0 loop' wafer pump through Like al 0 Tnduced EMH electrons pushes Key Principle FARADAYS LAW 3. The MAGNETIC conductor if is induced An EMF in 0 linking chonges: FLUX itl క్ైి induced volfage (EMF) V= -L(dt) V rote of chonge of current di dt Key Components 4 B-field energy ( a coil Coil (Electromagnet) 00+ slip rings and brushes: Rings Slip & Brushes Creates B-field ! Sfrong Magnets )$ N Types & Formula] 5 AC Motor (using slip rings) (using commutator DC Mofor (Approx. Formulq ! ) F= n * B*A* [* sin(o) F= output force A = coil area current n = number of Turns I = B-field densify DC Mofor uses commuTqTor T0 reverse currenT Nos direcrion every half Turn ! MOTOR 1. What_is it? device that converts ELECTRICAL ENERGY A Pushing intol MECHANICAL ENERGY charge Things move Opposife of GENERATOR makes 0 How it Works (Simple Analogy) 2 pushing charge Think of wqTer wheel 0 loop' wafer pump through Like al 0 Tnduced EMH electrons pushes Key Principle FARADAYS LAW 3. The MAGNETIC conductor if is induced An EMF in 0 linking chonges: FLUX itl క్ైి induced volfage (EMF) V= -L(dt) V rote of chonge of current di dt Key Components 4 B-field energy ( a coil Coil (Electromagnet) 00+ slip rings and brushes: Rings Slip & Brushes Creates B-field ! Sfrong Magnets )$ N Types & Formula] 5 AC Motor (using slip rings) (using commutator DC Mofor (Approx. Formulq ! ) F= n * B*A* [* sin(o) F= output force A = coil area current n = number of Turns I = B-field densify DC Mofor uses commuTqTor T0 reverse currenT Nos direcrion every half Turn ! - ShareChat")