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Inclusion of electronic devices that were cutting-edge at the time of publication.
He provides a closed-form torque-slip equation: [ T = \frac3 V_th^2 (R_2' / s)\omega_s \left[ (R_th + R_2'/s)^2 + (X_th + X_2')^2 \right] ] where ( V_th, R_th, X_th ) are Thevenin equivalents of the stator. Theory-alternating-current-machines-alexander-langsdorf-pdf
The centerpiece of Langsdorf’s work is his treatment of . Before the advent of advanced computer simulations, engineers relied on equivalent circuits and phasor diagrams to predict machine behavior. Langsdorf refined the mathematical models of the synchronous motor and generator, providing a systematic approach to understanding: Inclusion of electronic devices that were cutting-edge at
: Exploration of V-curves and the role of these machines in industrial power factor correction. Theory-alternating-current-machines-alexander-langsdorf-pdf