12) art A Submit My Answers Give Up 13) Which of the following combination of un

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12) art A SubmitMy AnswersGive Up


13)Which of the following combination of units can be used to measure self inductance (L)? Which of the following combination of units can be used to measure self inductance (L)?
(V%u2022s)/A V/(A%u2022s) %u03A9%u2022s %u03A9/s (V%u2022s2)/A SubmitMy AnswersGive Up




14) Which of the following statement (s) is/are true about the magnetic field created by a charge? Which of the following statement (s) is/are true about the magnetic field created by a charge?
A magnetic field can only be created by a moving charge and exerts a force on any other charge in its vicinity. The magnitude of a magnetic field is dependent of the sign of the charge and it is maximal along the line of motion of the charge. The magnitude of a magnetic field is inversely proportional to the distance from the charge and its direction is along the line on motion of the charge. The direction of the magnetic field is always perpendicular to the line of motion of the charge and to the unit vector describing the direction of the position vector. In order to increase the magnetic field of a moving charge one could: increase the speed of the charge, decrease the distance between the charge point and the field point, or increase the magnitude of the charge. SubmitMy AnswersGive Up



15) Which combination of units is equivalent to a Tesla, the unit used to measure the magnetic fieldstrength? Which combination of units is equivalent to a Tesla, the unit used to measure the magnetic field strength?
kg %u22C5 m2/C N %u22C5 m2/C kg %u22C5 m/(C %u22C5 s2) kg %u22C5 s/C2 kg/(C %u22C5 s) SubmitMy AnswersGive Up
Which of the following combination of units can be used to measure self inductance (L)?
(V%u2022s)/A V/(A%u2022s) %u03A9%u2022s %u03A9/s (V%u2022s2)/A Which of the following combination of units can be used to measure self inductance (L)?
(V%u2022s)/A V/(A%u2022s) %u03A9%u2022s %u03A9/s (V%u2022s2)/A Which of the following combination of units can be used to measure self inductance (L)?
(V%u2022s)/A V/(A%u2022s) %u03A9%u2022s %u03A9/s (V%u2022s2)/A SubmitMy AnswersGive Up




14) Which of the following statement (s) is/are true about the magnetic field created by a charge? Which of the following statement (s) is/are true about the magnetic field created by a charge?
A magnetic field can only be created by a moving charge and exerts a force on any other charge in its vicinity. The magnitude of a magnetic field is dependent of the sign of the charge and it is maximal along the line of motion of the charge. The magnitude of a magnetic field is inversely proportional to the distance from the charge and its direction is along the line on motion of the charge. The direction of the magnetic field is always perpendicular to the line of motion of the charge and to the unit vector describing the direction of the position vector. In order to increase the magnetic field of a moving charge one could: increase the speed of the charge, decrease the distance between the charge point and the field point, or increase the magnitude of the charge. SubmitMy AnswersGive Up



15) Which combination of units is equivalent to a Tesla, the unit used to measure the magnetic fieldstrength? Which combination of units is equivalent to a Tesla, the unit used to measure the magnetic field strength?
kg %u22C5 m2/C N %u22C5 m2/C kg %u22C5 m/(C %u22C5 s2) kg %u22C5 s/C2 kg/(C %u22C5 s) SubmitMy AnswersGive Up
Which of the following statement (s) is/are true about the magnetic field created by a charge?
A magnetic field can only be created by a moving charge and exerts a force on any other charge in its vicinity. The magnitude of a magnetic field is dependent of the sign of the charge and it is maximal along the line of motion of the charge. The magnitude of a magnetic field is inversely proportional to the distance from the charge and its direction is along the line on motion of the charge. The direction of the magnetic field is always perpendicular to the line of motion of the charge and to the unit vector describing the direction of the position vector. In order to increase the magnetic field of a moving charge one could: increase the speed of the charge, decrease the distance between the charge point and the field point, or increase the magnitude of the charge. Which of the following statement (s) is/are true about the magnetic field created by a charge?
A magnetic field can only be created by a moving charge and exerts a force on any other charge in its vicinity. The magnitude of a magnetic field is dependent of the sign of the charge and it is maximal along the line of motion of the charge. The magnitude of a magnetic field is inversely proportional to the distance from the charge and its direction is along the line on motion of the charge. The direction of the magnetic field is always perpendicular to the line of motion of the charge and to the unit vector describing the direction of the position vector. In order to increase the magnetic field of a moving charge one could: increase the speed of the charge, decrease the distance between the charge point and the field point, or increase the magnitude of the charge. Which of the following statement (s) is/are true about the magnetic field created by a charge?
A magnetic field can only be created by a moving charge and exerts a force on any other charge in its vicinity. The magnitude of a magnetic field is dependent of the sign of the charge and it is maximal along the line of motion of the charge. The magnitude of a magnetic field is inversely proportional to the distance from the charge and its direction is along the line on motion of the charge. The direction of the magnetic field is always perpendicular to the line of motion of the charge and to the unit vector describing the direction of the position vector. In order to increase the magnetic field of a moving charge one could: increase the speed of the charge, decrease the distance between the charge point and the field point, or increase the magnitude of the charge. SubmitMy AnswersGive Up



15) Which combination of units is equivalent to a Tesla, the unit used to measure the magnetic fieldstrength? Which combination of units is equivalent to a Tesla, the unit used to measure the magnetic field strength?
kg %u22C5 m2/C N %u22C5 m2/C kg %u22C5 m/(C %u22C5 s2) kg %u22C5 s/C2 kg/(C %u22C5 s) SubmitMy AnswersGive Up
Which combination of units is equivalent to a Tesla, the unit used to measure the magnetic field strength?
kg %u22C5 m2/C N %u22C5 m2/C kg %u22C5 m/(C %u22C5 s2) kg %u22C5 s/C2 kg/(C %u22C5 s) Which combination of units is equivalent to a Tesla, the unit used to measure the magnetic field strength?
kg %u22C5 m2/C N %u22C5 m2/C kg %u22C5 m/(C %u22C5 s2) kg %u22C5 s/C2 kg/(C %u22C5 s) Which combination of units is equivalent to a Tesla, the unit used to measure the magnetic field strength?
kg %u22C5 m2/C N %u22C5 m2/C kg %u22C5 m/(C %u22C5 s2) kg %u22C5 s/C2 kg/(C %u22C5 s) SubmitMy AnswersGive Up
There is only an E field in the x direction. There are electric field components in the +x direction and the +y direction. There are electric field components in the x direction and the +y direction. There are electric field components in the +x direction and the y direction. There are electric field components in the -x direction and the y direction.

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