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Part I
Part I

... Example: Solenoid and coil. A long thin solenoid of length l and cross-sectional area A contains N1 closely packed turns of wire. Wrapped around it is an insulated coil of N2 turns. Assume all the flux from coil 1 (the solenoid) passes through coil 2, and calculate the mutual inductance. ...
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... Current Baluns • A Current Balun is one whose output currents are equal and opposite (balanced with respect to ground). • With the exception of the 1:1 current balun, current baluns are more expensive to construct than voltage baluns and thus are les widely used. • Current baluns may be made with R ...
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... Alnico is a class of alloys containing aluminum, nickel, cobalt, iron, and additives that can be varied to give a wide range of properties. These magnets are strong, and have low temperature coefficients. Alnico magnets are less expensive than rare-earth cobalt magnets but more expensive than most o ...
lecture3 - WordPress.com
lecture3 - WordPress.com

... Core Types of Transformer • The magnetic (iron) core is made of thin laminated steel sheet. The reason of using laminated steel is to minimize the eddy current loss by reducing thickness • There are two common cross section of core which include square or (rectangular) for small transformers and ci ...
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... argument or from the formula for the radius of an orbit: R = mv/(qB). The physical argument is this: both particles feel the same (sideways) size force F = qvB. The more massive particle has more inertia and is therefore harder to turn, so it turns through a larger orbit. ...
Active magnetic levitation and 3-D position measurement for a ball
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... differential transformer (see Fig. 6). The position can be measured for each coordinate separately. For example, to measure the ball position in the x direction, the two sensor coils on the x axis are used. The four actuator coils in the plane perpendicular to x are used for excitation. If all four ...
magnetism - ScienceScene
magnetism - ScienceScene

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... rod inserted into the solenoid along its axis. Now repeat this with the iron rod inserted. You are looking for qualitatively similar behavior to what you observed before, but this time the effect should be much stronger. Did you see this effect? By about what factor did the induced voltage increase? ...
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... The claim is not reasonable, because the circuit breaker will trip at a maximum power of 2.4 hp. One would need a beefier circuit to carry a larger current so that the saw could deliver 3 hp of power. CP 24 A fisherman has netted a torpedo ray. As he picks it up, this electric fish creates a short-d ...
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... AC resistance bridge for establishing and maintenance of the ratio of currents equal to the ratio of the number of turns in the coil windings. The required ratios in the RTCC can be chosen depending on the ratio of the measured resistors. For accurate and reliable scaling of the currents, the calibr ...
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Process Variation Aware Synthesis of Application-Specific MPSoCs to Maximize Yield

... [3]. A rise in the value of VT increases circuit delay (which decreases maximum core frequency) and decreases the leakage power of the core; on the other hand, a reduction in VT decreases circuit delay and increases leakage power. Variations can thus impact both the performance and power of MPSoC de ...
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... Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included ...
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x0001 - My School Portfolio
x0001 - My School Portfolio

... Oersted, discovered that there was a relationship between electricity and magnetism. Thanks to Oersted and a few others, by using electricity, we can now make huge magnets. We can also cause them to release their objects. Electricity and magnetism are closely related. The movement of electrons cause ...
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... crops up in mind that whether such magnetoelectric crystals exists in reality or not?. At first sight this would seem to be rather impossible. One can show however, that the interactions are possible if phases possessing both spontaneous magnetization and spontaneous polarization could be coupled by ...
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Magnetic core

A magnetic core is a piece of magnetic material with a high permeability used to confine and guide magnetic fields in electrical, electromechanical and magnetic devices such as electromagnets, transformers, electric motors, generators, inductors, magnetic recording heads, and magnetic assemblies. It is made of ferromagnetic metal such as iron, or ferrimagnetic compounds such as ferrites. The high permeability, relative to the surrounding air, causes the magnetic field lines to be concentrated in the core material. The magnetic field is often created by a coil of wire around the core that carries a current. The presence of the core can increase the magnetic field of a coil by a factor of several thousand over what it would be without the core.The use of a magnetic core can enormously concentrate the strength and increase the effect of magnetic fields produced by electric currents and permanent magnets. The properties of a device will depend crucially on the following factors: the geometry of the magnetic core. the amount of air gap in the magnetic circuit. the properties of the core material (especially permeability and hysteresis). the operating temperature of the core. whether the core is laminated to reduce eddy currents.In many applications it is undesirable for the core to retain magnetization when the applied field is removed. This property, called hysteresis can cause energy losses in applications such as transformers. Therefore, 'soft' magnetic materials with low hysteresis, such as silicon steel, rather than the 'hard' magnetic materials used for permanent magnets, are usually used in cores.
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