In a region of space there is an electric field E~ that is in the z-direction and that has magnitude E=(868N/(C?m))x. Find the flux for this field through a square in the xy-plane at z = 0 and with side length 0.330 m. One side of the square is along the +x -axis and another side is along the +y-axis. [answer is 15.6 N.m2/C]
please explain and show work thanks!
In a region of space there is an electric field E~ that is in the z-direction...
6. The electric field in the region of space shown is given by E (8i+2yj) N/C where y is in m. What is the magnitude of the electric flux through the top face of the cube shown? 2n 7. a a Charge of uniform linear density (4.0 nC/m) is distributed along the entire x axis. Determine the magnitude of the electric field on the y axis at y-2.5 m.
The magnetic field in a region of space is given by: Ba(x2+22)7+(y2+22)7+(x2+z2)k) where alpha is some constant, x, y, and z are the coordinates in space about the origin and i, j, and k are unit vectors pointing along the x, y, and z-axes Also in the region of space is a conducting square loop with side lengths of L which is placed parallel to the xy-plane, centered on the z-axis, and has a z-coordinate of z Find an expression...
There is an electric flux of 25.5 N*m2/C through the square
region shown in the figure to the right. Each side of the square
has a length of .100 m, and the electric field is at an angle of
feta= 61 degrees relative to the plane of the surface. Assuming
that the field is uniform over the region shown, what is the
magnitude of the electric field?
There is an electric flux of 25.5 N*m^2/C through the square region shown...
Ē There is an electric flux of 26.5 N·m²/C through the square region shown in the figure. Each side of the square has a length of 0.100 m, în is the unit vector normal to the plane of the surface, and the electric field is at an angle of 0 = 59.0° relative to the plane of the surface. A n Assuming that the field is uniform over the region shown, what is the magnitude E of the electric field?...
An electron is traveling through a region of space in which the
electric field is along the +x direction and has a
magnitude of 1652 N/C. What is the acceleration of the
electron?
magnitude direction x m/s2
An electron is traveling through a region of space in which the electric field is along the +x direction and has a magnitude of 1922 N/C. What is the acceleration of the electron? magnitude m/s2 direction
A positive charge q moves along the positive x-axis in a region of space where a magnetic field points along the negative z-axis and an electric field points 19° below the negative x-axis (in the xy-plane) a. Draw a free body diagram indicating all forces acting on the particle. (Neglect gravity) b. What is the magnitude of the Lorentz force on the particle? c. What is the direction of the Lorentz force? Give your answer in degrees and indicate which...
There is an electric flux of 24.5 N·m2 C through the square region shown in the figure to the right. Each side of the square has a length of 0.100 m, and the electric field is at an angle of = 61.0° relative to the plane of the surface. Assuming that the field is uniform over the region shown, what is the magnitude of the electric field? Le , lit. Number N/C
rge density p must a region of space Explain. olume charge den pe uniform in this n of uniform posi- Can E be uniform 22.6 . The cube in Fig. E22.6 has sides of length L = 10.0 cm. The electric field is uniform, has magnitude E = 4.00 X 10N/C, and is parallel to the xy-plane at an angle of 53.Iº measured from the +x-axis toward the +y-axis. (a) What is the electric flux through each of the six...
ere is an electric flux of 33.5 N-m2 / C through the square region shown in the figure to the right. Each side of the square has a length of 0.100 m, and the electric field is at an angle of ? = 55.0% relative to the plane of the surface. Assuming that the field is uniform over the region shown, what is the magnitude of the electric field? I1 Number N/ C