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An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)
Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer?
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An alternator with internal voltage of 1∠δ1p.u. and synchron...
2 volts is a device that converts mechanical energy into electrical energy. It is commonly used in automobiles to recharge the battery and power the electrical system when the engine is running.
The alternator consists of a rotor, which is a rotating magnet, and a stator, which is a stationary set of coils. As the rotor spins, it creates a changing magnetic field that induces an electrical current in the stator coils. This current is then rectified and regulated to produce a steady output voltage of 12 volts.
The internal voltage of an alternator refers to the voltage produced by the stator coils before it is rectified and regulated. In most alternators, the internal voltage is higher than the output voltage, typically around 14 volts. This is necessary to overcome the voltage drop in the rectification and regulation process and ensure that the output voltage remains stable.
Overall, the alternator is a crucial component of the electrical system in any vehicle, providing a reliable source of power for the various electrical components and systems.
The alternator consists of a rotor, which is a rotating magnet, and a stator, which is a stationary set of coils. As the rotor spins, it creates a changing magnetic field that induces an electrical current in the stator coils. This current is then rectified and regulated to produce a steady output voltage of 12 volts.
The internal voltage of an alternator refers to the voltage produced by the stator coils before it is rectified and regulated. In most alternators, the internal voltage is higher than the output voltage, typically around 14 volts. This is necessary to overcome the voltage drop in the rectification and regulation process and ensure that the output voltage remains stable.
Overall, the alternator is a crucial component of the electrical system in any vehicle, providing a reliable source of power for the various electrical components and systems.
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An alternator with internal voltage of 1∠δ1p.u. and synchron...
Given real power in (p.u.), P = 0.866
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An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer?
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An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer? for Electrical Engineering (EE) 2024 is part of Electrical Engineering (EE) preparation. The Question and answers have been prepared according to the Electrical Engineering (EE) exam syllabus. Information about An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer? covers all topics & solutions for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer?.
An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer? for Electrical Engineering (EE) 2024 is part of Electrical Engineering (EE) preparation. The Question and answers have been prepared according to the Electrical Engineering (EE) exam syllabus. Information about An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer? covers all topics & solutions for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer?.
Solutions for An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer? in English & in Hindi are available as part of our courses for Electrical Engineering (EE).
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Here you can find the meaning of An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer?, a detailed solution for An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer? has been provided alongside types of An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice An alternator with internal voltage of 1∠δ1p.u. and synchronous reactance of 0.4 p.u. is connected by a transmission line of reactance 0.1 p.u. to a synchronous motor having synchronous reactance 0.35 p.u. and internal voltage of 0.85∠δ2 p.u. If the real power supplied by the alternator is 0.866 p.u, then (δ1 - δ2) is _____degrees. (ound off to 2 decimal places) (Machines are of non-salient type. Neglect resistances)Correct answer is '60 (59.50 to 60.50)'. Can you explain this answer? tests, examples and also practice Electrical Engineering (EE) tests.
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