A cube with edge length of
34.0 cm is positioned as shown in the figure.
There is a uniform electric field throughout the region given by E
= 6.7i + 7.7j + 4.0k in N/C units, but there is no charge within
the cube. What is the magnitude of the total flux through the five
non-shaded faces?
note the electric field is constant, so the flux through the
whole box = 0
the flux through the shaded face = 6.7*0.342 = 0.775
Nm2/C
so total flux through the five non-shaded faces = 0 - 0.775 = -0.775 Nm2/C
the magnitude = 0.775 Nm2/C
A cube with edge length of 34.0 cm is positioned as shown in the figure. There...
A cube with edge length of 56.0 cm is positioned as shown in the
figure.
There is a uniform electric
field throughout the region given by E = 4.5i + 8.5j + 1.8k in N/C
units, but there is no charge within the cube. What is the
magnitude of the total flux through the five non-shaded faces?
A cube with edge length of 76.0 cm is positioned as shown in the
figure.
There is a uniform electric field throughout the region given by
E = 4.9i + 5.9j +
3.4k in N/C units, but there is no charge within
the cube. What is the magnitude of the total flux through the five
non-shaded faces?
A cube with edge length of 66.0 cm is positioned as shown in the figure. X There is a uniform electric field throughout the region given by E = 5.5i 6.7j + 2.4k in N/C units, but there is no charge within the cube. What is the magnitude of the total flux through the five non- shaded faces? Tries 0/10 Submit Answer
A cube of edge length ℓ = 1.80 cm is positioned as shown in the
figure below. A uniform magnetic field given by = (6.1
î + 4.0 ĵ + 3.0 ) T
exists throughout the region.
We were unable to transcribe this imageWe were unable to transcribe this imageA cube of edge length 1.80 cm is positioned as shown in the figure below. A uniform magnetic field given by B (6.1 14.0j + 3.0 k) T exists throughout the...
A cube of edge length l = 2.30 cm is positioned as shown in the figure below. A uniform magnetic field given by B (5.8î + 4.0þ + 3.O) T exists throughout the region. 114 -X Z (a) Calculate the magnetic flux through the shaded face. (b) What is the total flux through the six faces?
A cube of edge length \(\ell=3.60 \mathrm{~cm}\) is positioned as shown in the figure below. A uniform magnetic field given by \(\overrightarrow{\mathbf{B}}=(5.1 \hat{\mathbf{i}}+4.0 \hat{\mathbf{j}}+3.0 \hat{\mathbf{k}}) \mathrm{T}\) exists throughout the region.(a) Calculate the magnetic flux through the shaded face. \(\mathrm{mWb}\)(b) What is the total flux through the six faces? \(\mathrm{mWb}\)
- 30 cm is positioned as shown in the figure below. There is a uniform magnetic field throughout the region with components 8, +7.0 TB +6.0 T, and B, A cube of edge length +2.0 T (a) Calculate the flux through the shaded face of the cube Tema (b) What is the netux emerging from the volume enclosed by the cube (he, the net flux through all six faces IT m² Need Help? Read Master
Chapter 23, Problem 003 The cube in the figure has edge length 1.24 m and is oriented as shown in a region of uniform electric field. Find the electric flux through the right face if the electric field (a) is in the positive x direction and has magnitude 8.81 N/C, (b) is in the negative y direction and has magnitude 2.91 N/C, and (c) is in the xz plane, has x component -3.95 N/C, and has z component 4.73 N/C....
The cube in the figure has edge length 1.40 m and is oriented
as shown in a region of uniform electric field. Find the electric
flux through the right face for the following electric fields,
given in newtons per coulomb.
(a) 2.00i (I need to find the answer in N*m^2/C)
(b)-6.00j(I need to find the answer in N*m^2/C)
(c)-2.00i+4.00k(I need to find the answer in
N*m^2/C)
(d) What is the total flux through the cube for each of these
fields?...