## Inductance Calculations: Working Formulas and TablesHoping to simplify matters for engineers overwhelmed by inductance calculations, the author brings together an invaluable collection of formulas and tables. For virtually every type of inductor, Dr. Grover provides a single simple formula, together with tables from which essential numerical factors may be interpolated. Starting with a survey of general principles, the text explains circuits with straight filaments; parallel elements of equal length; mutual inductance of unequal parallel filaments and filaments inclined at an angle to each other; and inductance of single-layer coils on rectangular winding forms. Additional topics include the mutual inductance of coaxial circular filaments and of coaxial circular coils; self-inductance of circular coils of rectangular cross section; mutual inductance of solenoid and a coaxial circular filament and coaxial single-layer coils; single-layer coils on cylindrical winding forms; and special types of single-layer coil. 1946 ed. |

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### Contents

CHAPTER | 6 |

CHAPTER | 17 |

CHAPTER 4 | 26 |

CHAPTER 5 | 31 |

CHAPTER 6 | 45 |

CHAPTER 8 | 59 |

CHAPTER 10 | 70 |

CHAPTER 11 | 77 |

CHAPTER 16 | 142 |

Design Data Singlelayer Coils r 152 Problem | 153 |

Example 50 158 Problem D Given Inductance Diameter | 159 |

CHAPTER 19 | 193 |

CHAPTER 20 | 209 |

CHAPTER 21 | 215 |

Auxiliary Table 1 Natural Logarithms of Numbers 236 Auxiliary | 237 |

242 Auxiliary Table 4 Values of Differential Coefficients of Zonal | 244 |

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### Common terms and phrases

abamperes abhenrys accuracy angle approximation Auxiliary Table axis basic formula calculate the mutual central filaments circle of radius circular coil coaxial cable coaxial circles coaxial circular filaments coils of rectangular common logarithm convergence correction for insulating cross sectional dimensions curve cylindrical current sheet Diff direct current ductance edition electromotive force elliptic integrals end plane equal circles equivalent filaments Example factor functions geometric mean distance given value gives high frequency hyperbolic functions inch inner conductor insulating space interpolated from Table mean radius method mutual inductance natural logarithm number of turns obtained from Table parallel axes parameter proximity effect rectangle rectangular cross section resistance ratio round wire self-inductance series formula shape ratio single-layer coil skin effect solenoid Table 13 Table 38 taken from Table thickness total number tube tubular conductor Unabridged republication winding density winding form wound zero zonal harmonics