the value of `oint barB.bar(dl)` for the loop L is

Three long straight conductors are kept perpendicular to the plane of paper. Currents 2A,3A are passing through the two conductors into the plane of paper in first two conductors and 5A current passes through thirst conductor, directed out of the paper. A closed loop encloses the conductors, then the value of oint bar(B). bar(dl) over the closed loop is ( assume current into the paper as negative and out of the paper as positive )

Find the values of ointvecB.vec(dl) for the loops L_1, L_2 and L_3 in Fig. (The sense of vec(dl) is mentioned in the figure)

Find the values of ointvecB.vecdl for the loops L_(1),L_(2),L_(3) in the figure shown . The sence of vecdl is mentioned in the figure.

A cylinder wire of radius R is carrying uniformly distributed current I over its cross-section. If a circular loop of radius r is taken as amperian loop, then the variation value of oint vec(B)* Vec(dl) over this loop with radius 'r' of loop will be best represented by

Two long straight conductors carry currents 4 A and 2A into the plane of paper. A circular path is imagined to be enclosing these currents. The value of oint bar(B).bar(dl) is

In the diagram shown, a wire carriers current I . The loop has N turns and part of helical loop on which arrows are drawn is outside the plane of paper. What is the value of the oint vecB.vec(dl) (as in Ampere's law) on the helical loop shown in the figure?

What will be the acceleration of the bar magnet, if the loop had a cut in between (or if it was not a closed loop)?

A square loop of side L carries a current I . Another smaller square loop of side l(l lt lt L) carrying a current i is placed inside the bigger loop such that they are coplanar with their centre coinciding. If the currents in the loops are in the same direction, the magnitude of the torque on the smaller loop is

In the given figure, bar(LM)"//"bar(PN) and the line l is a transversal of bar(LM) and bar(PN) . Find the value of a .