2. Circle coil area 3.0 square centimeter Placed in a uniform magnetic field (B) 0.5 tesla, directed towards the page as shown. If force (F) pulls the coil in the direction shown, the center area of the circular coil is 0 square centimeters in 1.0 s interval. F Bin X X X X 2.1 Find the rate of change of magnetic flux passing through the center area of the coil. Choices 0.0 T. m2/s 0.0 T. m/s -1.5x104 T•m/s +1.5x104 T•m/s -1.5 T'm/s +1.5 T·m/s -1.5x104 T•m?/s +1.5x104 T m2²/s -3.0x104 T•m/s +3.0x104 T•m/s +3.0 T•m²/s -3.0 T•m?/s +3.0 T•m/s -3.0 T•m/s
2. Circle coil area 3.0 square centimeter Placed in a uniform magnetic field (B) 0.5 tesla, directed towards the page as shown. If force (F) pulls the coil in the direction shown, the center area of the circular coil is 0 square centimeters in 1.0 s interval. F Bin X X X X 2.1 Find the rate of change of magnetic flux passing through the center area of the coil. Choices 0.0 T. m2/s 0.0 T. m/s -1.5x104 T•m/s +1.5x104 T•m/s -1.5 T'm/s +1.5 T·m/s -1.5x104 T•m?/s +1.5x104 T m2²/s -3.0x104 T•m/s +3.0x104 T•m/s +3.0 T•m²/s -3.0 T•m?/s +3.0 T•m/s -3.0 T•m/s
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Transcribed Image Text:2. Circle coil area 3.0 square centimeter Placed in a uniform magnetic field (B) 0.5 tesla, directed
towards the page as shown. If force (F) pulls the coil in the direction shown, the center area of the
circular coil is 0 square centimeters in 1.0 s interval.
F
Bin
2.1 Find the rate of change of magnetic flux passing through the center area of the coil.
Choices
0.0 T. m²/s
0.0 T. m/s
-1.5x104 T•m/s
+1.5×104 T•m/s
-1.5 T•m/s
+1.5 T:m/s
-1.5x104 T•m²/s
+1.5x104 T-m²/s
-3.0x10-4 T•m/s
+3.0x104 T-m/s
+3.0 T·m?/s
-3.0 T•m²/s
+3.0 T•m/s
-3.0 T•m/s
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