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Date: 8-10-2020
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Magnetic Flux
In our discussion of velocity fields and electric fields, we used the concept of the flux of a field. For the velocity field, the flux Φv of water was the volume of water flowing per second past some perpendicular area A⊥ . For a uniform stream moving at a speed v, the flux was Φv = vA⊥. For the electric field, the formula for flux was ΦE = EA⊥.
In Figures (1 and 2), we have a magnetic field that "flows" through a wire loop. Following the same convention that we used for velocity and electric fields, we will define the magnetic flux ΦB as the strength of the field B times the perpendicular area A⊥ through which the field is flowing
.........(1)
Figure 1.
Figure 2: Here we have a large coil that lies completely outside the magnetic field. Thus there is no magnetic force on any of the electrons in the coil wire. Yet when we turn the magnet on or off, we get a reading in the volt meter.
In both figures (1) and (2), the flux ΦB through the wire loop is decreasing. In Figure (1), ΦB decreases because the perpendicular area A⊥ is decreasing as the loop and the magnet move apart. In Figure (2), the flux ΦB is decreasing because B is being shut off. The important observation is that whenever the flux ΦB through the loop decreases, whatever the reason for the change may be, we get a voltage reading V on the voltmeter.
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"عادة ليلية" قد تكون المفتاح للوقاية من الخرف
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ممتص الصدمات: طريقة عمله وأهميته وأبرز علامات تلفه
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المجمع العلمي للقرآن الكريم يقيم جلسة حوارية لطلبة جامعة الكوفة
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