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Q1. In a DC machine, if the field winding is replaced by permanent magnets, can the...
1. Machine Overview. Please answer the following questions. Note: this is to test your comprehension of the basic concepts covered in class. For a DC Machine and Synchronous Machine: Name the two winding types for synchronous and de machines a. Identify which type of winding is used to control torque b. Of the winding types, which is wound on the stator? c. DC Machine: Synchronous Machine: nsidering the combined air gap MMF for the following machines, indicate which has rotating...
Q1. In a synchronous generator, how to adjust (increase or reduce) the field current so that the generator has lagging power factor? Give your explanation. Q2. In a synchronous motor, how to adjust (increase or reduce) the field current so that the motor has leading power factor? Give your explanation. Q3. In a synchronous motor, is the power input to the field winding is larger than the power input to the armature winding? Give your explanation.
Q1. Draw the equivalent circuits of a separately excited and a shunt DC motor. [20] Q2. Derive the speed-torque relation for a DC motor: [40] 0 = VR, Kø (KØ)??ind Q3. A DC motor's speed can be controlled by either changing the field resistance, changing the armature voltage or changing the armature resistance. Of these three, which one is the best method for DC motor speed control and which is the worst? Give reasons. [40]
1. Name the various parts of a DC machine and give their function. 2. A four-pole de machine with a lap wound armature has a total of 652 armature conductors with an armature resistance of 0.1502. When run as a generator on open circuit at a speed of 400rpm, the armature terminal voltage is 262V. Each pole shoe arc has a diameter of 42cm, subtends an angle of 60° and has an axial length of 20cm. 2.1.Calculate the useful flux...
Q1: (30 points) A shunt DC generator, running at a constant speed of 1400 rpm, has a field resistance of 200 22 and armature resistance of 0.5 12. Ignore armature reaction and assume a 400 W rotational loss. a) [15] While supplying no load, the induced armature voltage is 280 V. Calculate the input power. b) [15] When the generator is loaded, the developed power is found to be 4.1 kW at the same magnetic flux of the field found...
A 8250 w shunt DC motor has a terminal voltage of 300 V. A field resistance Rf of 40 Ω, and an armature resistance Ra of 250 mm2. The field winding has 1500 turns. An adjustable resistance Rad is connected in series to the field winding. Rad is set at 20 Ω, but it can vary from 0 to 80 Ω. The magnetization curve is shown in Figure.1 and it is taken at a speed of 1200 rpm. (Armature reaction...
Q1..Give a detail explanation of ATA Carnets. Make sure to include description with example of product. History and types. Risks. Q2.Explain Commodity classification in details and in your own words
can someone answer this computer maths question, please give a
detailed answer with explanation thanks!!
Q1. A computer virus is planted on 4 machines the first day. Every day each infected machine from the day before infects 7 new machines. By the end of the second day, a program was developed to counteract the virus and one machine was cleaned. Each day thereafter, eight times as many machines are clean as were clean the day before a. If an is...
Problem 29.57 The magnitude of the magnetic field in a magnetic resonance imaging (MRI) machine can be as great as B = 2.0 T. Under normal circumstances, this field cannot be shut off by just flipping a switch Instead the magnitude needs to be carefully decreased to zero. In an emergency, however, the magnet can be "quenched" so that B reduces to zero in 20 s. Such a quench can cost thousands of dollars and likely damages the magnets. Assume...
Please explain the answers so I can understand, thank
you.
03. A positive charge q1=+4 μC is located at coordinates (0, 0.40) m. (HW 1b) (Simply use ke-9.0x10°Nm2/C2. You should know that 1uC-10 C) =+4 C is located at the origin and a negative charge q2-3 pC is axis, 0.30 m from the origin. Find the electric field at the point P, which has 1) Draw arrows on the left figure to show the electric field at point P To...