- The Figure Below Shows The Top View Of A Bar Sliding On Frictionless Rails The Resistor Is 6 00 2 And The Magnetic Fie 1 (47.11 KiB) Viewed 103 times
The figure below shows the top view of a bar sliding on frictionless rails. The Resistor is 6.00 2, and the magnetic fie
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answerhappygod
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The figure below shows the top view of a bar sliding on frictionless rails. The Resistor is 6.00 2, and the magnetic fie
The figure below shows the top view of a bar sliding on frictionless rails. The Resistor is 6.00 2, and the magnetic field's magnitude is 2.50 T. If the length of the bar is 1.20 m, calculate the applied force (Fapp) necessary to move the bar at a constant speed of 2.00 m/s to the right. Also what rate is Energy delivered to the resistor (P). opp [Select] P= [Select] Value R V V xxx xx X x xx ** Xx xx xx xx xxx xxx [Select] [Select] xx xxxxxx x Power of 10 xxxx app 3 [Select] V [Select] Unit