362694
A straight current carrying conductor is kept along the axis of circular loop carrying current. The force exerted by the straight conductor on the loop is
1 Perpendicular to the plane of the loop
2 In the plane of the loop, away from the center
3 In the plane of the loop, towards the center
4 Zero
Explanation:
Conceptual Question
KCET - 2012
PHXII04:MOVING CHARGES AND MAGNETISM
362695
In the given figure, the loop is fixed but straight wire can move. The straight wire will
1 remain stationary
2 move towards the loop
3 move away from the loop
4 rotates about the axis
Explanation:
If we consider a small element (shown in figure), the magnetic force on the considered element is towards the straight wire. Thus, the wire move toward the loop.
PHXII04:MOVING CHARGES AND MAGNETISM
362696
In the figure current flows in a circular loop and straight wire. The loop is fixed butstraight wire can move. The straight wire will
1 Remains stationary
2 Move towards the loop
3 Move away from the loop
4 Rotate about the axis
Explanation:
By Fleming's left hand rule, force by the small element of circular loop is towards the wire. So, they attract each other hence move towards the loop.
PHXII04:MOVING CHARGES AND MAGNETISM
362697
An infinitely long, straight conductor is fixed and a current is passed through it. Another movable straight wire of finite length and carrying current is held perpendicular to it and released. Neglect weight of the wire
1 The rod will move downward parallel to itself
2 The rod will move upwards parallel to itself
3 The rod will move upward and turn anti-clock wise at the same time
4 The rod will move upward and turn clockwise at the same time
Explanation:
Since the force on the rod is non-uniform it will experience force and torque. From the left hand side it can be seen that the force will be upward and torque is clockwise.
362694
A straight current carrying conductor is kept along the axis of circular loop carrying current. The force exerted by the straight conductor on the loop is
1 Perpendicular to the plane of the loop
2 In the plane of the loop, away from the center
3 In the plane of the loop, towards the center
4 Zero
Explanation:
Conceptual Question
KCET - 2012
PHXII04:MOVING CHARGES AND MAGNETISM
362695
In the given figure, the loop is fixed but straight wire can move. The straight wire will
1 remain stationary
2 move towards the loop
3 move away from the loop
4 rotates about the axis
Explanation:
If we consider a small element (shown in figure), the magnetic force on the considered element is towards the straight wire. Thus, the wire move toward the loop.
PHXII04:MOVING CHARGES AND MAGNETISM
362696
In the figure current flows in a circular loop and straight wire. The loop is fixed butstraight wire can move. The straight wire will
1 Remains stationary
2 Move towards the loop
3 Move away from the loop
4 Rotate about the axis
Explanation:
By Fleming's left hand rule, force by the small element of circular loop is towards the wire. So, they attract each other hence move towards the loop.
PHXII04:MOVING CHARGES AND MAGNETISM
362697
An infinitely long, straight conductor is fixed and a current is passed through it. Another movable straight wire of finite length and carrying current is held perpendicular to it and released. Neglect weight of the wire
1 The rod will move downward parallel to itself
2 The rod will move upwards parallel to itself
3 The rod will move upward and turn anti-clock wise at the same time
4 The rod will move upward and turn clockwise at the same time
Explanation:
Since the force on the rod is non-uniform it will experience force and torque. From the left hand side it can be seen that the force will be upward and torque is clockwise.
362694
A straight current carrying conductor is kept along the axis of circular loop carrying current. The force exerted by the straight conductor on the loop is
1 Perpendicular to the plane of the loop
2 In the plane of the loop, away from the center
3 In the plane of the loop, towards the center
4 Zero
Explanation:
Conceptual Question
KCET - 2012
PHXII04:MOVING CHARGES AND MAGNETISM
362695
In the given figure, the loop is fixed but straight wire can move. The straight wire will
1 remain stationary
2 move towards the loop
3 move away from the loop
4 rotates about the axis
Explanation:
If we consider a small element (shown in figure), the magnetic force on the considered element is towards the straight wire. Thus, the wire move toward the loop.
PHXII04:MOVING CHARGES AND MAGNETISM
362696
In the figure current flows in a circular loop and straight wire. The loop is fixed butstraight wire can move. The straight wire will
1 Remains stationary
2 Move towards the loop
3 Move away from the loop
4 Rotate about the axis
Explanation:
By Fleming's left hand rule, force by the small element of circular loop is towards the wire. So, they attract each other hence move towards the loop.
PHXII04:MOVING CHARGES AND MAGNETISM
362697
An infinitely long, straight conductor is fixed and a current is passed through it. Another movable straight wire of finite length and carrying current is held perpendicular to it and released. Neglect weight of the wire
1 The rod will move downward parallel to itself
2 The rod will move upwards parallel to itself
3 The rod will move upward and turn anti-clock wise at the same time
4 The rod will move upward and turn clockwise at the same time
Explanation:
Since the force on the rod is non-uniform it will experience force and torque. From the left hand side it can be seen that the force will be upward and torque is clockwise.
362694
A straight current carrying conductor is kept along the axis of circular loop carrying current. The force exerted by the straight conductor on the loop is
1 Perpendicular to the plane of the loop
2 In the plane of the loop, away from the center
3 In the plane of the loop, towards the center
4 Zero
Explanation:
Conceptual Question
KCET - 2012
PHXII04:MOVING CHARGES AND MAGNETISM
362695
In the given figure, the loop is fixed but straight wire can move. The straight wire will
1 remain stationary
2 move towards the loop
3 move away from the loop
4 rotates about the axis
Explanation:
If we consider a small element (shown in figure), the magnetic force on the considered element is towards the straight wire. Thus, the wire move toward the loop.
PHXII04:MOVING CHARGES AND MAGNETISM
362696
In the figure current flows in a circular loop and straight wire. The loop is fixed butstraight wire can move. The straight wire will
1 Remains stationary
2 Move towards the loop
3 Move away from the loop
4 Rotate about the axis
Explanation:
By Fleming's left hand rule, force by the small element of circular loop is towards the wire. So, they attract each other hence move towards the loop.
PHXII04:MOVING CHARGES AND MAGNETISM
362697
An infinitely long, straight conductor is fixed and a current is passed through it. Another movable straight wire of finite length and carrying current is held perpendicular to it and released. Neglect weight of the wire
1 The rod will move downward parallel to itself
2 The rod will move upwards parallel to itself
3 The rod will move upward and turn anti-clock wise at the same time
4 The rod will move upward and turn clockwise at the same time
Explanation:
Since the force on the rod is non-uniform it will experience force and torque. From the left hand side it can be seen that the force will be upward and torque is clockwise.
