A cube of edge length l = 2.50 cm is po...

A cube of edge length `l = 2.50 cm` is positioned as shown in Fig. 3.20. A uniform magnetic field given by `vec(B) = (5.00 hat(i) + 4.00hat(j) + 3.00hat(k)) T` exists throughout the region.
(a) Calculate the flux through the shaded face.
(b) What is the total flux through the six faces ?

Similar Questions

Explore conceptually related problems

If the electric field in a region is given by vec(E) = 5 hat(i) + 4 hat(j)+ 9 hat(K) , then the electric flux through a surface of area 20 units lying in the y-z plane will be

If E= 6hat(i) + 3hat(j) + 4hat(k) , then calculate the electric flux through a surface of area 20 units in YZ-plane.

The cube in figure has edge length sqrt2m and is oriented as shown in a region of uniform electric field , in newtons per coulomb, is given by (a)6.00hati , (b) -2.00 hatj, and (c) -3.00 hatj+ 4.00 hatk . (d) what is the total flux through the cube for each field ?

If the electric field is given by (6 hat(i) + 4 hat(j) + 4 hat(k)) , calculate the electric flux through a surface of area 20 units lying in Y-Z plane.

A wire carrying a 10 A current is bent to pass through sides of a cube of side 10 cm as shown in figure. A magnetic field vec(B) = (2 hat(i) - 3 hat(j) +hat (k))T is present in the region. Then, find The net force on the loop

A cube has sides of length L = 0.300 m . It is placed with one corner at the origin ( refer to Fig.2.119).The electric field is not uniform but is given by vec( E) = ( -5.00 NC^(-1)) x hat(i) + (3.00 NC^(-1)) z hat(k) . The flux passing through the surface S_(5) will be

A cube of edge length `l = 2.50 cm` is positioned as shown in Fig. 3.20. A uniform magnetic field given by `vec(B) = (5.00 hat(i) + 4.00hat(j) + 3.00hat(k)) T` exists throughout the region. (a) Calculate the flux through the shaded face. (b) What is the total flux through the six faces ?

Similar Questions

Recommended Questions

A cube of edge length `l = 2.50 cm` is positioned as shown in Fig. 3.20. A uniform magnetic field given by `vec(B) = (5.00 hat(i) + 4.00hat(j) + 3.00hat(k)) T` exists throughout the region.
(a) Calculate the flux through the shaded face.
(b) What is the total flux through the six faces ?