11:501/2ViewDE2340Assignment for Electrical and computer Engineering in 2016Summation date 01/10/20161. Determine the magnitude of force F, the resultant force and the angle between resultant force andpositive x-axis of the three forces.35%12 kN2. The turnbuckle is tightened until the tension cable AB is 1.2 KN. Calculate the magnitude of themoment about O of the force acting point A and writes the value of the moments with respect to theiraxis.1.6 m3. The uniform beam has mass 100-Kg.compute the reactions at the support O. The force loads shownlie in a vertical plane.3kN4 kN-m14 kNA0.6 m0.6 mAssignment for Electrical and computer Engineering in 2016Summation date 01/10/20164. The rigid pole and cross-arms. Determine the tensions TAE and TGF in the two supportingcables resulting from the 1.2-kN tension in cable CD. Assume the absence of any resistingmoments on the base of the pole at O about the x-and y-axes, but not about the z-axis.|||1.5 mT= 1.2 kNg6-d!!!

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Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Similar questions

Q1) In a two-stimulus magnetic system, the inductance relationships are as follows L11 = L22 = 2H , L12 = L21 = coseH Two coils are connected in parallel to the voltage V=500sin314t. What is the average torque of the system per 0=30°?
In this Exercise 6 we will explore laws critical to the study of electromagnetism. We will be using Simulation 3 (below) to explore how a moving magnet produces current in a nearby coil of wire. a. Magnetic field strength decreases as you get farther from the poles of the magnet. Does the flux through the face of the coil change as you move the magnet? Explain your answer. b. Why does the meter needle deflect? Is the deflection in accordance with Lenz’s Law? Justify your answer in terms of Lenz’s law and your above answers.
3. The torque applied to move the pointer is 355.6x10-6 N/m1 and it creates the 0.598 Wbm2 magnetic field density. The effective depth of the coil has 5.5 cm x 0.131 m with voltage and power consumed by the meter are 26.5V and 288.3mW. If so then, 1-calculate the number of turns of the coil.

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