Transformatrum

Transformatrum est apparatus electricus qui amplitudinem signi electrici transformari sinit quae in circuitis electricis fluit. Hoc apparatus persaepe in urbibus in polis electricisFormula:Dubsig conlocatur, ubi fluxiones tensionis altae in fluxiones tensionis dimissae transformant.

Transformatra specialiter per leges Faradayicam et Amperianam fungitur, quae transformationes inter confluctuantes campos electricos, campos magneticos, et fluxiones electricas gubernant. In apparatu, fluxio electrica alternans cuiusdam amplitudinis I₁ primi circuiti transformatur in novam fluxionem amplitudinis I₂ alteri circuiti. Haec res per campum magneticum ex primo circuito coortum efficitur, qui fluxionem in altero circuito efficit.

Transformatrum perfectum operatur sine dissipationibus; hoc est sine energia in calorem propter resistitivatem fili conductri vel propter effectus magneticos amissa. Quod genus transformatri perfecti filis superconductralibus fabricari potest. Fluxionis I et tensionis V amplitudinum conversio per transformatra perfecta discribuntur secundum aequationes

${\displaystyle \left(\begin{array}{c}{I}_2\\ V_2\end{array}\right)=\left(\begin{array}{cc}\gamma & 0\\ 0& \frac{1}{\gamma }\end{array}\right)\left(\begin{array}{c}{I}_1\\ V_1\end{array}\right)}$

ubi ${\displaystyle \gamma =\frac{N_2}{N_1}}$ est analogia numeri revolutionum quas utraque fila insulata circum medium transformatrum faciunt antequam ipsa ab oppositis lateribus transformatri exeunt.

Formula:NexInt

• Aequationes Maxwellianae
• Ars electrica
• Electromagnetismus
• Electronica
• Genera transformatrorum
• Inductor
• Lex Faradayica
• Nucleus magneticus
• Substatio electrica
• Systema polyphasisFormula:Dubsig
• Tempestas geomagnetica

• Central Electricity Generating Board. 1982. Modern Power Station Practice. Pergamon. ISBN 0-08-016436-6.
• Daniels, A. R. 1985. Introduction to Electrical Machines. Macmillan. ISBN 0-333-19627-9.
• Flanagan, William. 1993. Handbook of Transformer Design and Applications. McGraw-Hill. ISBN 0-0702-1291-0.
• Gottlieb, Irving. 1998. Practical Transformer Handbook. Elsevier. ISBN 0-7506-3992-X.
• Gururaj, B. I. 1963. "Natural Frequencies of 3-Phase Transformer Windings." IEEE Transactions on Power Apparatus and Systems 82 (66):318–329. doi:10.1109/TPAS.1963.291359.
• Hammond, John Winthrop. 1941. Men and Volts, the Story of General Electric. J. B. Lippincott.
• Harlow, James. 2004. Electric Power Transformer Engineering. CRC Press. ISBN 0-8493-1704-5.
• Heathcote, Martin. 1998. J & P Transformer Book. Ed 12a. Newnes. ISBN 0-7506-1158-8.
• Hindmarsh, John. 1977. Electrical Machines and their Application. Ed. 4a. Exeter: Pergamon. ISBN 0-08-030573-3.
• Kulkarni, S. V., et S. A. Khaparde. 2004. Transformer Engineering: Design and Practice. CRC Press. ISBN 0-8247-5653-3.
• McLaren, Peter. 1984. Elementary Electric Power and Machines. Ellis Horwood. ISBN 0-4702-0057-X.
• McLyman, William. 2004. Transformer and Inductor Design Handbook. CRC. ISBN 0-8247-5393-3.
• Pansini, Anthony. 1999. Electrical Transformers and Power Equipment. CRC Press. p. 23. ISBN 0-8817-3311-3.
• Ryan, H. M. 2004. High Voltage Engineering and Testing. CRC Press. ISBN 0-8529-6775-6.
• Say, M. G. 1983. Alternating Current Machines. Ed 5a. Londinii: Pitman. ISBN 0-273-01969-4.
• Winders, John. 2002. Power Transformer Principles and Applications. CRC. ISBN 0-8247-0766-4.

Formula:Physica-stipula Formula:Tech-stipula Formula:1000 paginae

Formula:Myrias