Ego uti maxime concisum maxime accessible via ad DC motricium et opus principium ac motricium et differentia.
Simplicissima corporalis exemplar supra est directum current motricium.
how it works:
1. Dc power supply electric current to flow along the positive to the left of the brush, brush and commutator mutual friction, current through the commutator (on the leftAlso called a riser, about this machine has two commutator segment)Flow into the coil, flowing from the right side of the coil, after the commutator segment on the right and the right of the brush flow back to the power of the cathode, formed a closed loop.
II. Propter coil in pono (n et s) in hoc pictureof magnetica agro, in plano et in effectu electromagneticis, in latere ad exhaurire electricity in aliam partem, ut ad electromagnet electromagnet, ut in electromagnet et ad electromagnet, ut ex parte electromagnet, ut ex parte electromago In coegi electro torque, coil satus conversus. In DC motricium Coil embedded in Rotor socors, coepit ad turn motricium.
3. Or so commutator segment with axis of rotation, and brush stationary, rotation after a circle, to the left to the right of the coil, the coil on the left to the right, but because of the existence of the riser, now in on the left side of the coil in the direction of current and the original is on the left side of the coil current in the direction of flow, so by the electromagnetic force direction invariable, the right side, too. Ita ex parte spatii, in eodem loco in directionem electromagneticorum semper constans, hoc ensures cyclic gyrationis motricium.
IV. Sed coil, in aliam positionem in agro magnetica non est idem, ducunt ad coil electro vis mutata, sic coil volubilem non firmum ieiunium et tardus. Ita potest installed complures coil ad praestare uniformitatem et stabilitatem de coil accentus. Et erat talis,
etiam motricium exemplar.
Praeter duo vectes foris, sunt excitando coil electromagnet, parva motricium cum permanet magnes, paululum magna voluntas electro.
Model est exemplar, sed realis motricium rotor est sic.
Et AC motricium, ac motricium Synchronous et Asynchronous motricium, maxime propter generans, asynchronous maxime motricium. Dico quod Asynchronous motricium, late ex asynchronous motor structuram est simplex, cheap, securus sustentacionem, certa operatio, etc est late usus.
AC motricium structuram est simplex, sed opera est magis complicated quam directam current apparatus, si intelligere magis evidenter.
on ac motor stator flux on the three-phase symmetric alternating current (ac), as shown in the above, the stator motionless, only with the current changes can produce rotating composite magnetic field, the magnetic field as a around the stator rotating magnet. Cum autem rotating magnet, illud est omne ius, in coil de stator interna ad proprie posuit in Agricola, in hoc claudendo coil erit inductionibus electromotive vis et vena, et generate sursum. Potest intelligere ita, rotating magnet stator, rotor claudendo coil ex inductione præcepit, sed etiam fit a magnes, electromagnet foris rursus, et adducere in medio electromagnet, et motor rotor in medio electromagnet, et motor rotor in medio electromagnet, et AC motor rotor vertit. Rotationis celeritate recto magnetica dicitur Synchrono celeritate, in agro magnetica est in medio rotor est in rotatione, ita et celeritas in celeritate, ut celeritas. Ita habeo nomine Asynchronous motricium.
AC motor rotor est simplex paucis claudendo coil, aut clausa conductor, sicut rat a cavea, ita etiam dicitur sciurus, caveam asynchronous motricium. In addition, debitum ad intus Rotor est debitum ad rectum magneticam agro inductione electro vis et current, ita dicuntur asynchronous motor induction motricium. Magis et nomen tres-phase Assynchronous motricium, ac motricium, inductionem motricium, et inductionem motricium, dicitur: Da nomen a diversis angulis. Si vides non sufficit, volo discere magis verbis post quaestiones in commentariis, ego experiri ad respondendum in detail.
