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AlmF flat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V. Its...
AlmF Alat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V. Its...
AlmF Alat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V. Its plates are then connected through a resistor R=1 Ohm. The magnetic field at its side (cylindrical) surface in the beginning of discharging equals: OAO OB.2T OC. 20 mT OD. 1.5 Wb OE. None of the above
A ImF flat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V....
A ImF flat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V. Its plates are then connected through a resistor R=1 Ohm. The magnetic field at its side (cylindrical) surface in the beginning of discharging equals: OAO OB.2T OC. 20 ml OD. 1.5 Wb O E. None of the above
A 1mF flat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V....
A 1mF flat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V. Its plates are then connected through a resistor R=1 Ohm. The magnetic field at its side (cylindrical) surface in the beginning of discharging equals: A. 0 B. 2 T C. 20 mT D. 1.5 Wb E. None of the above
A 1mF flat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V....
A 1mF flat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V. Its plates are then connected through a resistor R=1 Ohm. The magnetic field at its side (cylindrical) surface in the beginning of discharging equals: A. 0 B. 2 T C. 20 mT D. 1.5 Wb E. None of the above
A lmF flat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V....
A lmF flat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V. Its plates are then connected through a resistor R=1 Ohm. The magnetic field at its side (cylindrical) surface in the beginning of discharging equals: O A. O B. 2T C. 20 ml D. 1.5 Wb E. None of the above
QUESTION 1 A lmF flat plate circular capacitor of radius 1 cm is charged to voltage...
QUESTION 1 A lmF flat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V. Its plates are then connected through a resistor R=1 Ohm. The magnetic field at its side (cylindrical) surface in the beginning of discharging equals:
A cylinder solenoid of radius 1 cm having 500 turns carries clockwise electric current 1 A....
A cylinder solenoid of radius 1 cm having 500 turns carries clockwise electric current 1 A. It is placed in the external magnetic field of strength1 T parallel to its axis. Work required to change the solenoid current to the counterclockwise, equals A 0.514) B.7.28) C. 0.05) OD. 13 eV E. None of the above
A cylinder solenoid of radius 1 cm having 500 turns carries clockwise electric current 1 A....
A cylinder solenoid of radius 1 cm having 500 turns carries clockwise electric current 1 A. It is placed in the external magnetic field of strength1 T parallel to its axis. Work required to change the solenoid current to the counterclockwise, equals O A. 0.514) B. 7.28) C. 0.05) D. 13 eV E. None of the above
A cylinder solenoid of radius 1 cm having 500 turns carries clockwise electric current 1 A....
A cylinder solenoid of radius 1 cm having 500 turns carries clockwise electric current 1 A. It is placed in the external magnetic field of strength1 T parallel to its axis. Work required to change the solenoid current to the counterclockwise, equals A. 0.514 J B. 7.28 J C. 0.05 J D. 13 eV E. None of the above
A cylinder solenoid of radius 1 cm having 500 turns carries clockwise electric current 1 A....
A cylinder solenoid of radius 1 cm having 500 turns carries clockwise electric current 1 A. It is placed in the external magnetic field of strength1 T parallel to its axis. Work required to change the solenoid current to the counterclockwise, equals
AlmF Alat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V. Its plates are then connected through a resistor R=1 Ohm. The magnetic field at its side (cylindrical) surface in the beginning of discharging equals: OAO OB.2T OC. 20 mT OD. 1.5 Wb OE. None of the above
A ImF flat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V. Its plates are then connected through a resistor R=1 Ohm. The magnetic field at its side (cylindrical) surface in the beginning of discharging equals: OAO OB.2T OC. 20 ml OD. 1.5 Wb O E. None of the above
A lmF flat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V. Its plates are then connected through a resistor R=1 Ohm. The magnetic field at its side (cylindrical) surface in the beginning of discharging equals: O A. O B. 2T C. 20 ml D. 1.5 Wb E. None of the above
QUESTION 1 A lmF flat plate circular capacitor of radius 1 cm is charged to voltage V=1000 V. Its plates are then connected through a resistor R=1 Ohm. The magnetic field at its side (cylindrical) surface in the beginning of discharging equals:
A cylinder solenoid of radius 1 cm having 500 turns carries clockwise electric current 1 A. It is placed in the external magnetic field of strength1 T parallel to its axis. Work required to change the solenoid current to the counterclockwise, equals A 0.514) B.7.28) C. 0.05) OD. 13 eV E. None of the above
A cylinder solenoid of radius 1 cm having 500 turns carries clockwise electric current 1 A. It is placed in the external magnetic field of strength1 T parallel to its axis. Work required to change the solenoid current to the counterclockwise, equals O A. 0.514) B. 7.28) C. 0.05) D. 13 eV E. None of the above
A cylinder solenoid of radius 1 cm having 500 turns carries clockwise electric current 1 A. It is placed in the external magnetic field of strength1 T parallel to its axis. Work required to change the solenoid current to the counterclockwise, equals
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