please answer all parts of the quesiton with step by step working thank you (f) A rotating frame carrying an electric current I = 6 A is penetrated by the uniformmagnetic flux density B₂ mT as shown in Fig. 4.2. The frame dimensions are a = 10 mmand b = 10 mm, and the axis of rotation is A - A'.AaB°°bP'Figure 4.2.Calculate the magnetic flux density B.A'x (b) A rotating frame carrying an electric current I = 2 A is penetrated by the uniformmagnetic flux density B₂ = 90 mT as shown in Fig. 4.1. The frame dimensions area = 30 mm and b = 30 mm, and the axis of rotation is A - A'.aQbA'B₂Q'YIFigure 4.1.(i) Calculate the vectorial force F acting on the section P - P' of the frame.(ii) Calculate the total torque 7 on the frame.

Que (b)Part (i)Magnitude of magnetic force(F) on a current carrying conductor is given by the…

Answered: (f) A rotating frame carrying an…

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter29: Dc Generators

Section: Chapter Questions

Problem 5RQ: What are interpoles, and what is their purpose?

See similar textbooks

Similar questions

A ring of ferromagnetic material has a rectangular section. The inner diameter is 15 cm.The outer diameter is 24 cm. And the thickness is 5 cm. There is a coil of 500 turns wound onthe ring. When the coil has a current of 10 A, the flux in the core is 0.0007 Wb. Theaverage length of the ring is Ln=0.66m Determine:a) The magnetomotive force.b) The intensity of the magnetic field and the flux density.c) Reluctance, permeability and relative permeability.
This is a practice problem from the Engineering Electromagnetics course in my Electrical Engineering program. Could you please walk me through the steps of solving it so that I can solve more complicated ones in the future? Thank you for your assistance.
A rod with mass m = 0.720 kg and radius r = 6.00 cm rests on two parallel rails, as shown in the figure. The rails are separated by a distance d = 12.0 cm and have length L = 45. cm.The rod carries a current I = 48.0 A in the direction shown in the figure and rolls on the rails without slipping. There is a uniform magnetic field of magnitude B = 0.240 T perpendicular to the rails and the rod. If the rod starts from rest, what is its speed when it leaves the rails?
When the current in a long, straight, air-filled solenoid is changing at the rate of 2000 A/s, the voltage across the solenoid is 0.600 V. The solenoid has 1200 turns and uniform cross- sectional area 25.0 mm2 . Assume that the magnetic field is uniform inside the solenoid and zero outside, so the result L =M0AN2/l applies. What is the magnitude B of the magnetic field in the interior of the solenoid when the current in the solenoid is 3.00 A?
Two parallel and coaxial current loops of radius, a, are separated by a distance, D. When you look at the loops along the axis, you notice that the current direction for both loops is not the same. What is the magnitude of the magnetic field at a location halfway between the loops on the axis? A. B. C. D. O Hola² 4(a² + D²)³/2 Hola2 2(a² + D²) ³/₂ 0 2μ01 D
In the figure below, part of a long insulated wire carrying current i = 5.78 mA is bent into a circular section of radius R = 1.89 cm. In unit-vector notation, what is the magnetic field at the center of curvature C if the circular section (a) lies in the plane of the page as shown and (b) is perpendicular to the plane of the page after being rotated 90° counterclockwise as indicated? i -x Ci P i
One solenoid is inside the other solenoid. Both solenoids have length L and N turns. The radius of the inner solenoid is 2R and the radius of the outer solenoid is 3R. The inner solenoid carries current 41 and the outer solenoid carries current l in opposite directions as shown. What is the magnetic field at a distance R from the central axis? Both solenoids are long and thin, i.e., L >> R. > +x
Fundamentals of Energy Systems HW 4 Q4
Please Help! explain details thxxx
Answer all parts of the PHY problem please
Magnetic field is coming out of the page
An ideal solenoid with n turns per unit length and carrying a current i has a uniform magnetic field along its long axis given by 29 - Hn!. If the radius of the solenoid is R, what is the magnetic flux through its circular cross-section? Note da=2.r dr. O A) 0 O B) T4nI R 2 Tụ,nI R? O D) 2.74,nlI R O E) T4,nIR

SEE MORE QUESTIONS

Recommended textbooks for you

Delmar's Standard Textbook Of Electricity

Electrical Engineering

ISBN:

9781337900348

Author:

Stephen L. Herman

Publisher:

Cengage Learning

Delmar's Standard Textbook Of Electricity

Electrical Engineering

ISBN:

9781337900348

Author:

Stephen L. Herman

Publisher:

Cengage Learning

SEE MORE TEXTBOOKS