Consider the frame shown in Figure 2, with a constant modulus of elasticity, E, and a varyingmoment of inertia, I (refer to the values provided in Figure 2). Using the Force Method ofanalysis, compute all the reaction forces at A and D. Take D, as the redundant (i.e., horizontalreaction at D). Use units of kips for forces and foot for length throughout the problem.Hint: Use the x-coordinates shown in the figure to formulate your moment equations. Do notforget to transfer the forces from the vertical members to the horizontal one!x.2.4 klf30 kB31CIO AX124 ft-Figure 2IDO13 ft

Understanding the ProblemWe are presented with a frame structure with varying moment of inertia. The…

Answered: Consider the frame shown in Figure 2,…

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?

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A solenoid similar to the figure below, has a core made of caststeel (refer to the figure on the next slide). It has a cross-sectional area of 4cm2 and a mean length of 20cm. The coil has 100turns, and the coil current is 3.2A. Find the following:a)magnetomotive force, mmfb)magnetic field intensity, Hc)flux density, B (with graph)
Explain the hysteresis that can be found in materials due to force, magnetic and electrical subjection (give an example on two different materials below) show and explain the hysteresis curves for these materials. 1)High carbon steel 2)Cast iron
A solenoid has 250 turns, Solve for the magnetomotive force when the current is 0.12 Amperes, a. in terms Sl unit b. in terms of CGS unit
A three-legged ferromagnetic magnetic core with the coil dimensions shown below has a of 500 turns wrapped around the right leg. The core relative permeability is 4000 times, The magnetic flux in the left leg of the core has a value of 40 mWb. The center leg has an air gap of 0.8 mm, its fringing effect is neglected. Draw the corresponding magnetic circuit and find the values of the coil current i, and the flux in each leg of the core. cm 10 cm, 25cm 25 cm 10 cm 10 cm 25 cm 0.8 mm 500 turns 10 cm Core depth = 10 cm
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Consider the magnetic circuit in figure. A current of (3A) flowsthrough 200 turns of wire around a core of cross sectional aea of10-3 m2 and a relative permeability of 5000.a) Determine the magnetic flux in each legb) Determine the magnetic field intensity in the air gapc) Determine the magnetic force on the across the air gap
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you these questions. The dimensions of a ferromagnetic core are shown in the figure below. Assuming the core is built from an ideal material with an infinite permeability, consider that the coil has 1000 turns, and the core cross-section is 250 mm². Given that the permeability of free space = 4 x 10-7 H/m, answer the following questions: a) Calculate the total reluctance of the flux path. b) Determine the magnetomotive force when the current flowing in the coil is 150 mA. c) What is the magnitude of the flux produced by a current of 10 A in the coil? d) Plot the direction of the flux in the figure, 1mm considering the direction of the current in the coil. e) Sketch the Magnetic Circuit, labeling each component with its corresponding value. 2 mm 5 mm 3 mm 3 mm 5 mm
A ten-turn solenoid has a ferromagnetic core with a relative permeability of 10,000. The length of the solenoid is l=10 cm and its cross section area is A=1 cm2. The amount of current driving the solenoid is 0.1 A. Determine the magnetic flux intensity H in the core. Provide your answer in A/m. Round off to your answer to one decimal.
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Given a magnetic circuit with a current 2.6A flowing through 205 turns of wire on a core having a reluctance of 125000 At/Wb. Determine the magnetomotive force of the circuit in base units.

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