Force, F = BIL
F = 0.8 x 50 x 0.2 = 8 N to the top of the screen
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will rate, thanks! A magnet produces a uniform field of 0.80 T over a square region...
A magnet produces a uniform field of 0.80 T over a square region 0.2 m x 0.2 m in size. A wire carries 50 A to the right through this region, as shown. What is the magnitude and direction of the magnetic force on the wire? B -0.80 T into page x x x x x x 1-50 A 0.20 m The magnetic force is zero. 8 N to the bottom of the screen 40 N to the bottom of...
A magnet produces a uniform field of 0.80 T over a square region 0.2 m x 0.2 m in size. A wire carries 50 A to the right through this region, as shown. What is the magnitude and direction of the magnetic force on the wire? A magnet produces a uniform field of 0.80 T over a square region 0.2 mx 0.2 m in size. A wire carries 50 A to the right through this region, as shown. What is...
A magnet produces a uniform field of 0.80 T over a square region 0.2 mx 0.2 m in size. A wire carries 50 A to the right through this region, as shown. What is the magnitude and direction of the magnetic force on the wire? B -0.80 T into pag X X X X I = 50 A ОО 0.20 m 8 N to the bottom of the screen The magnetic force is zero. 40 N to the bottom of...
A magnet produces a uniform field of 0.80 Tover a square region 0.2 mx 0.2 m in tre. A wire carries 50 A to the right through this region, as shown. What is the magnitude and direction of the magnetic force on the wire into per X X т OSN to the bottom of the screen SN to the top of the screen The magnetic forces der 40 N to the bottom of the screen 40 N to the top...
11. The region above the dashed line has a uniform external magnetic field of 0.2 Teslas. The magnetic field below the horizontal dashed line is zero. The wire carries a current of 2 Amps. What is the net magnetic force on the wire due to the external magnetic field? (A) zero 3m i 3m (E) 1.6 N out of page (F) 2.4 N toward top of page (B) 2.4 N toward bottom of page (C)1.6 N toward bottom of page...
will rate, thanks! A positive point charge moves into the field of a bar magnet as shown. The arrow represents the velocity of the charge. As a result of the magnetic force on the charge, what direction will the point charge be deflected? N S out of the screen to the left to the top of the screen into the screen to the right
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a magnetic field is up and out of the page and B=0.80 T and the wire carries 30A. What is the magnitude of the force on the wire?
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