The figure-4.236 contains an infinite slab having current per unit area of `vec(J)_(1)=Jhat(k)` between the infinite planes at `x= -b` and `x=b`. Slightly to the right of `x=b`, an infinite thin sheet is lept. It carries a current per unit length `vec(k)_(2)=2bJ(-hat(k))`. Choose the correct option(s):

Write a unit vector in the direction of vec b=2hat i+hat j+2hat k

If there are two vectors vec(A) and vec(B) such that vec(A)+vec(B)=hat(i)+2hat(j)+hat(k) and vec(A)-vec(B)=(hat(i)-vec(k)) , then choose the correct options.

Find the unit vector in the direction of the vector : vec(b)=2hat(i)+hat(j)+2hat(k)

Two infinite sheets carrying current in same direction (of equal current per unit length K) are separated by a distance d. A proton is released from a point between the plates with a velocity parallel to the sheets but perpendicular to the direction of current in the sheets. Then the path of the proton is

A conductor consists of an infinite number of adjacent wires, each infinitely long & carry a current i .Show that the of B will be as represented in figure & that B for all points in front of the infinite current sheet will be given by, B=(1//2) mu_(0)ni , where n is the number of conducting wires per unit length.

Find the angle between the vectors vec a and vec b where: vec a=3hat i-2hat j-jhat k and vec b=4hat i-hat j+8hat k

What is the unit vector hat a parallel to the vector vec a= 3 vec I + 4 vec j - 2 vec k ? Find the vector vec b such that hat a + vec b becomes the unit vector vec i ?

Find the angle between the vectors vec a and vec b where: vec a=2hat i-hat j+2hat k and vec b=4hat i+4hat j-2hat k

Find the resultant of vectors vec a=hat i-hat j+2hat k and vec b=hat i+2hat j-4hat k. Find the unit vector in the direction of the resultant vector.

Let there be one sheet of infinite length and breadth is shown in the figure given below. Electric current is flowing along the length of sheet (perpendicular to the plane of paper). K is the electric current per unit width in this given sheet. Evaluate the magnetic field intensity near this sheet of current.