2) With respect to the diagram shown below develop an equation for magnetic field intensity of a current carrying straight conductor extending from point A to point B, consider dl=dzaz in this case. B dL I R >X-y
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- The Aluminum Electrical Conductor Handbook lists a dc resistance of 0.01558 ohm per 1000 ft at 20C and a 60-Hz resistance of 0.0956 ohm per mile at 50C for the all-aluminum Marigold conductor, which has 61 strands and whose size is 1113 kcmil. Assuming an increase in resistance of 2 for spiraling, calculate and verify the dc resistance. Then calculate the dc resistance at 50C, and determine the percentage increase due to skin effect.Determine the GMR of each of the unconventional stranded conductors shown in Figure 4.30. All strands have the same radius r.With respect to the diagram shown below develop an equation for magnetic field intensity of a currect carrying straight conductor extending from point A to point B, consider dl=dzaz in this case
- -Electric flux density, Gauss's law and -Divergence theorem 7.Besides the number of turns and the legth of active conductor, whit of the following is?are a factor which affects the amount of emf(voltage) induced in a coil? A) how fast the conductor is moving through the field(rate of incidence), B) the strength of the magtnetic field(flux density), C) the angle at which the conductor is cutting the magnetic field( angle of incidence), D) all of the above What is mean by genarator regulation? A) it is the percentage rise in terminal voltage from no-load to full-load, B) it is the percentage rise in terminal voltage full-load to no-load, C) it is the amount of control one has over the terminal voltage by way of the field excitation, D) none How are transformer components indetified? The algebraic symboly for the number of kilovolt-amperes on the load side of the transformer is_____. A) KVAh, B) KVAx, C) KVA-primary, D) KVA-secondaryThe vector magnetic potential inside a conductive cylindrical conductor of radius b is given by A . H =?
- Derive the flux density, D, by applying Gauss's Law:1. Infinite Line ChargeSupposed that a coaxial cable consists of a solid inner conductor of radius a, surrounded by a concentric cylindrical tube of inner radius b and outer radius c as shown below. We assume that the conductors are carrying an equal current I naught that is distributed equally into the cross-section but of different directions as indicated by the directions in the image above. Calculate the magnitude of magnetic field at a distance r from the axis, where: - rc Plot the magnitude of the magnetic field with respect to the distance r from the axis.A free standing linear conductor of length (l) carries a current (I) along the z-axis. Determine the flux density (B) at a point (P) located at distance (r) in the (x-y) plane. (see figure)
- Derive the flux density, D, by applying Gauss's Law:1. Uniformly charged sphereDescribe the shape of the curve. How is the magnetic field welated to the current thwough the solenoid? Determine the best-fit line equation of the curve. (Nowt the constants and their unitsss.) Wat is the significance of the slope and y-intercept of the cuwve?A 2a-part piece of wire was removed from the middle area of my upper edge, consisting of rectangular conductive wires with a long edge of 10a and a short edge of 4a, and replaced with a semicircular conductive wire with a radius. A constant I current passes through the closed ring in the way. What's the magnetic field vector at that point? (Get T=3).