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The armature resistance of a permanent magnet dc motor is 0.8 . At no load, the motor draws 1.5 A from a supply voltage of 25 V and runs at 1,500 rpm. The efficiency of the motor (in percentage), while it operates on load at 1,500 rpm and draws a current of 3.5 A from the same source, will be (Answer up to the nearest integer)
    Correct answer is '48'. Can you explain this answer?
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    The armature resistance of a permanent magnet dc motor is 0.8 . At no load, the motor draws 1.5 A from a supply voltage of 25 V and runs at 1,500 rpm. The efficiency of the motor (in percentage), while it operates on load at 1,500 rpm and draws a current of 3.5 A from the same source, will be (Answer up to the nearest integer)Correct answer is '48'. Can you explain this answer?
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    The armature resistance of a permanent magnet dc motor is 0.8 . At no load, the motor draws 1.5 A from a supply voltage of 25 V and runs at 1,500 rpm. The efficiency of the motor (in percentage), while it operates on load at 1,500 rpm and draws a current of 3.5 A from the same source, will be (Answer up to the nearest integer)Correct answer is '48'. 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 The armature resistance of a permanent magnet dc motor is 0.8 . At no load, the motor draws 1.5 A from a supply voltage of 25 V and runs at 1,500 rpm. The efficiency of the motor (in percentage), while it operates on load at 1,500 rpm and draws a current of 3.5 A from the same source, will be (Answer up to the nearest integer)Correct answer is '48'. 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 The armature resistance of a permanent magnet dc motor is 0.8 . At no load, the motor draws 1.5 A from a supply voltage of 25 V and runs at 1,500 rpm. The efficiency of the motor (in percentage), while it operates on load at 1,500 rpm and draws a current of 3.5 A from the same source, will be (Answer up to the nearest integer)Correct answer is '48'. Can you explain this answer?.
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