Use equation for magnetic force on a current carrying wire and
properties of vector cross product to find the required magnitude
and direction of force as shown below

A magnet produces a uniform field of 0.80 T over a square region 0.2 m x...
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...
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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 х X X I-50 A 0.20 m 40 N to the bottom of the screen 8 N to the top of the screen 40...
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...
2. A 2.0-m wire carries a current of 15 A directed along the positive x axis in a region where the magnetic field is uniform and given by Bx = 30 mT and By =-40 mT. Show that the resulting magnetic force on the wire is 1.5 N pointing into the paper. [Please show a diagram for the direction!] 4. Show that a current of 75 A must be maintained in a square loop (50 cm on a side) to create...
1. (40 POINTS) A square wire loop with 1 m sides is perpendicular to a uniform magnetic field, with top half of the area of the loop in the field out of the page and the bottom half of the loop is in the magnetic field into the page, as shown in the figure. The loop contains an ideal battery with emf 8 = 25 V. If the magnitude of the field on the top varies with time according to...
X nt PROBLEMS ABOUT MAGNETIC FORCES P4) A region contains both uniform electric field E(S.2-4j+2k) x 103 V/m and magnetic field B = Bi+B. When a proton q 16X 10-c is inserted (6+3-5)x 10 m/s, it is found that the net force on the proton is Prepared by Asist Prof Dr. I.Sakalli P1) A wire carries a steady current of 0.6A. A straight section of ie the region with a constant velocity follows F(29.121 424j + 10.4 ) x 10-16N...
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uniform magnetic field of strength (2T). Find the magnitude of the force on the wire. Answer in units of N 008 (part 1 of 2) 10.0 points A 10 A current is directed along the post- tive s-axis and perpendicularly to a uniform magnetic field. The conductor experiences a magnetic force per unit length of 0.19 N/min the negative y direction Calculate the magnitude of the magnetic field in the region through which the current 012 10.0 points Consider...
A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space. A uniform electric field is also present. An electron that is projected with an initial velocity v0 = 9.1 × 104 m/s in the positive x-direction passes through the region without deflection. What is the electric field vector in the region?