A 5.6-cm-diameter circle lies in the xz-plane in a region where the electric field is E⃗...

A 3.5 cm × 5.5 cm rectangle lies in the xz-plane. Part A What is the...

A 3.5 cm × 5.5 cm rectangle lies in the xz-plane. Part A What is the magnitude of the electric flux through the rectangle if E⃗ =(150ı^−210k^)N/CE→=(150ı^−210k^)N/C? in N⋅m^2/C Part B What is the magnitude of the electric flux through the rectangle if E⃗ =(150ı^−210ȷ^)N/CE→=(150ı^−210ȷ^)N/C? in N⋅m^2/C

A spherically symmetric charge distribution produces the electric field E⃗ =(150/r)r^N/C, where r is in m....

A spherically symmetric charge distribution produces the electric field E⃗ =(150/r)r^N/C, where r is in m. What is the electric field strength at r = 11.0 cm? What is the electric flux through a 17.0-cm-diameter spherical surface that is concentric with the charge distribution? How much charge is inside this 17.0-cm-diameter spherical surface?

In a region of space there is an electric field E⃗  that is in the z-direction and...

In a region of space there is an electric field E⃗  that is in the z-direction and that has magnitude E=(836N/(C⋅m))x. Find the flux for this field through a square in the xy-plane at z = 0 and with side length 0.510 m . One side of the square is along the +x -axis and another side is along the +y-axis.

A uniform electric field is given (in units of N/C) by E = 63 i –...

A uniform electric field is given (in units of N/C) by E = 63 i – 87 j + 48 k , where i, j, k are unit vectors in the directions of x, y, z axes respectively. Find the magnitude of the electric flux through a circle of a 15 cm cm radius located in the xz-plane

A 40 cm diameter loop is placed in a uniform electric field to the position where...

A 40 cm diameter loop is placed in a uniform electric field to the position where the greatest flux is obtained. Placed. The flux at this position is 5.2x105 (Nm2 / C). The size of the electric field how much?

A circular area with a radius of 6.20 cm lies in the xy-plane. Part A) What...

A circular area with a radius of 6.20 cm lies in the xy-plane. Part A) What is the magnitude of the magnetic flux through this circle due to a uniform magnetic field with a magnitude of 0.220 T in the + z -direction? Part B) What is the magnitude of the magnetic flux through this circle due to the same magnetic field (with a magnitude of 0.220 T ), now at an angle of 54.4 ∘ from the + z...

A circular area with a radius of 7.20 cm lies in the x-y plane. 1) What...

A circular area with a radius of 7.20 cm lies in the x-y plane. 1) What is the magnitude of the magnetic flux through this circle due to a uniform magnetic field BBB = 0.213 TT that points in the +z direction? 2) What is the magnitude of the magnetic flux through this circle due to a uniform magnetic field BBB = 0.213 TT that points at an angle of 53.7 ∘∘ from the +z direction? 3) What is the...

A 46.0-cm-diameter circular loop is rotated in a uniform electric field until the position of maximum...

A 46.0-cm-diameter circular loop is rotated in a uniform electric field until the position of maximum electric flux is found. The flux in this position is measured to be 5.40  105 N · m2/C. What is the magnitude of the electric field?

The figure shows a circular region of radius R = 4.17 cm in which an electric...

The figure shows a circular region of radius R = 4.17 cm in which an electric flux is directed out of the plane of the page. The flux encircled by a concentric circle of radius r is given by E,enc = (0.600 V·m/s)(r/R)t, where r ≤ R and t is in seconds. What is the magnitude of the induced magnetic field at radial distance 2.17 cm? 1.325*10^17 T is wrong

The direction of a uniform electric field is in the y–z plane at an angle of...

The direction of a uniform electric field is in the y–z plane at an angle of 30 degrees from the +y axis, 60 degrees from the +z axis. This uniform field extends throughout the region of a 2.0-m cube similar to the one in Fig. 24.7. What is the electric flux through each of the faces of the cube, labeled 1 through 6 in Fig. 24.7b? What is the net flux?