A cubical gaussian surface is bisected by a large sheet of charge, parallel to its top and bottom faces. No other charges are nearby. Through how many of the cube's faces is the electric flux zero? 1. 0 2. 2 3. 4 4. 6
Q: If a charge is located at the center of a spherical volume and the electric flux through the surface…
A: Given Electric flux is ϕ0 Find the electric flux when the radius of the sphere.
Q: Consider a cube with edge length Limmersed in a uniform electric field E along the x-direction as…
A: Solution: The expression of electric flux is given by: ϕE=∫SE→.n^dS; where, E→ is the electric…
Q: A point charge +Q is located on the x-axis at x = a, and a second point charge +Q is located on the…
A: Given data: Point charge +Q at x = a Second point charge + Q at x = -a Side of cube l = 3a,…
Q: A point charge is located at the center of a thin spherical conducting shell of inner and outer…
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Q: A certain region of space bounded by an imaginary closed surface contains no charge. Is the electric…
A: The electric field doesn’t need to be zero on the surface, only the total electric flux throughthe…
Q: ges lle in plane, Four Gaussian surfaces ch enclose part of this plane and the image shows the…
A: According to Gauss's theorem Electric flux = qenc /ε₀
Q: The figure below shows a box-shaped closed surface with one of its edges lying on the x-axis, and…
A: a) The net electric flux for the right and left surface will be available and other surface will get…
Q: A long thin conducting wire that carries a uniform linear charge density A=41.8 nC/m passes through…
A: Given data: Linear charge density (λ) = 41.8 nC/m Length of cylinder (L) = 0.19 m Required: The net…
Q: What is the electric field at any point outside the shell of radius R where a positive charge Q is…
A: We have to find the electric field at any point outside the shell.
Q: A 4.0 cm side square surface in the x-y plane sits in a uniform electric field É = 2.0î + 3.0j +…
A: GivenSide of square in x-y plane a=4.0 cm a=0.04…
Q: A charge q = 17€0 µC is a distance d/2 directly above the center of a square of side d. What is the…
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Q: A Gaussian surface in the form of a hemisphere of radius R = 5.68 cm lies in a uniform electric…
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Q: An electric field given by È = 4.5 i - 4.6(y² + 1.3)j pierces the Gaussian cube of edge length 0.130…
A: Given: Electric field: E→=4.5i^-4.6(y2+1.3)j^ Length of each cube side: l=0.13 [m] y=0.13 [m] Then,…
Q: 2. An electric field given by E = 6.1 i - 2.9(y? + 5.1) j pierces the Gaussian cube o edge length…
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Q: A 4.0 cm2 in the x-y plane sits in a uniform electric field E = (2.0 i + 3.0 j + 5.0 k) N/C. Find…
A: Given, Electric field, E=(2i+3j+5k)N/C Area, A=4 cm2=4×10-4m2
Q: The figure shows a Gaussian surface in the shape of a cube with edge length 1.60 m. What are (a) the…
A: Hey, since there are multiple subparts posted, we will answer first three subparts. If you want any…
Q: A charge +Q is sitting at the origin (0,0,0). A closed sphere with a radius R surrounds the charge.…
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Q: A 4.0 cm^2 in the x-y plane sits in aunifo electric field E=(2.0i+3.0j+5.0k)N/C. Find the electric…
A: Given: Area of the square in x-y plane, A = 4.0 cm2. Electric field, E = (2.0i+3.0j+5.0k) N/C. To…
Q: Consider a cube with edge length L immersed in a uniform electric field E along the x-direction as…
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Q: Two thin spherical shells, one of radius R and the other with radius 2R, surround on an isolated…
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Q: An infinite, uniformly charged sheet with surface charge density o cuts through a spherical Gaussian…
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Q: In the center of a Gaussian surface in the shape of a cube you place a charge 2Q. What is the…
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Q: Shown in the figure are gaussian surfaces ( S1, S2, and S3) and three point charges. Which of the…
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Q: Charge Q is distributed uniformly throughout a spherical insulating shell. The net electric flux in…
A: According to Gauss's Law : Net electric flux through the Gaussian surface = Qenclosed / ε0
Q: A hemispherical surface of radius R is in a constant electric field E directed perpendicular to the…
A: Answer Given Hemispherical surface has radius R and E is the constant electric field. The total…
Q: A Gaussian cube of length L has its bottom, left, rear corner at the origin of the coordinate system…
A: Given : electric field, E→=E1xLi^+E0j^ side of the cube, L Determine :- (4) flux through each face…
Q: A thin rod of length 5L has uniform charge per length A. The rod goes through a rectangular prism of…
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Q: A 4.0 cm side square surface in the x-y plane sits in a uniform electric field E = (2.0 i + 3.0 j +…
A: The formula for the electric flux is φ=EA
Q: Three point charges q1= 6 mC, q2 = 2 mC, q3 = - 4 mC are enclosed by the Gaussian surface S. What is…
A: Introduction: Gauss's law says that net electric flux due to charges is the 1ε∘ times of the…
Q: A square 10 cm long is in a region where there exists a uniform 2.0 kN/C electric field normal to…
A: Given data: Side of square (s) = 10 cm = 0.1 m Electric field (E) = 2.0 kN/C = 2000 N/C Angle…
Q: A particle with charge q is located inside a cubical gaussian surface. No other charges are nearby ,…
A: The best technique to determine flux through a surface is Gauss law. "Gauss law is always applicable…
Q: A unifomly charged and infinitely long line having a linear charge density '2' is placed at a normal…
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Q: Consider a cube with edge length L immersed in a uniform electric field E along the x-direction as…
A: flux through surace 1, Φ1=0flux through surace 2, Φ2=E→.S→=EL2cos0=EL2flux through surace 3,…
Q: Consider a cube with edge length L immersed in a uniform electric field E along the x-direction as…
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Q: A cube of side L = 2.2 m lies in a region where the electric field is given by 3.G take → 3.6 en…
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Q: A cube of side L and a point charge q are placed in the xyz coordinate system, as shown. The…
A: GivenCube with side L
Q: A cube has one corner at the origin and the opposite corner at the point (L,L,L). The sides of the…
A: in this case, flux and area vectors are parallel . therefore, flux is just the dot product of…
Q: The figure shows three situations in which a Gaussian cube sits in an electric field. The arrows and…
A: Net flux through cube in these situations can be calculated by using formula --- Net flux = Outward…
Q: An imaginary cubical surface with sides of length 5.00 cm has a point charge q=+6.00 nCq=+6.00 nC at…
A: (a)The electric flux through the entire closed cubical surface is,
Q: Assume the magnitude or the the figure below is uniform and the directions each face are as…
A: (5) (a) ϕnet=ϕ1 +ϕ2 +ϕ3 + ϕ4 +ϕ5 + ϕ6we know that the flux is given by ϕ = E.Awhere E is…
Q: A uniform charge density of 65 nC/m3 is distributed throughout a spherical volume (radius = 16.5…
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Q: In which of the following cases the electric flux through the mentioned closed surface is the…
A: A. Cylinder with Q load inside B. Sphere with charge -Q C. Cylinder with outer -3Q load D. Sphere…
Q: Assume the magnitude of the electric field on each face of the cube of edge L = 1.08 m in the figure…
A: Electric flux describes the number of electric field lines crossing a specified area. The larger…
Q: Which describes the flux of an electric field that is tangent to a section on a closed surface? O…
A: the flux of an electric field that is tangent to a section on a closed surface is zero. Flux is…
Q: A 4.0 cm^2 in the x-y plane sits in a uniform electric field E = (2.0 i + 3.0 j + 5.0 k) N/C. Find…
A: The electric field is given as E→=2.0i^+3.0j^+5.0k^N/C The area is 4.0 cm2. The electric flux is…
Q: The figure shows a closed Gaussian surface in the shape of a cube of edge length 2.6 m, with one…
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Q: Consider a cube with edge length L immersed in a uniform electric field E along the x-direction as…
A: Given:- A cube is shown in the figure a cube with edge length L immersed in a uniform electric…
Q: A proton is enclosed by a closed Gaussian surface. Find the magnitude of the electric flux through…
A: The charge of a proton particle is, q=1.6×10-19 C
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- If a closed cylindrical surface of height 0.3 m and diameter 0.2 m were placed as shown, completely enclosing q1 and q3, what would be the net flux through the surface due to all three charges?Consider a plane surface in a uniform electric field as in the Figure , where d=15 cm and Theta=70 . If the net flux through the surface is 6.00 Nm2/C, find the magnitude of the electric fieldA cube whose sides are of length d is placed in a uniform electric field of magnitude E=4.0103 N/C so that the field is perpendicular to two opposite faces of the cube. What is the net flux through the cube?
- The electric flux through a cubical box 8.0 cm on aside is 1.2103 N m2/C. What is the total charge enclosed by the box?Now, consider a non -conducting sphere with uniform volume charge density p=38 microC/m^3 and radius R=19m If r'=0.58R , find the the net flux through the gussian surface of radius r'If the electric field is given by 6i+3j+4k calculate the electric flux through a surface of area 20 units lying in y-z plane.
- The figure shows a sphere carrying a uniformly distributed volume charge Q. Three Gaussian surfaces are concentric with the sphere as shown. a)Which Gaussian surface(s) has the greatest electric flux though it? b)On which of Gaussian surface is the electric field the greatest?A particle with charge Q is located on the axis of a circle of radius R at a distance b from the plane of the circle (as shown). Show that if one-fourth of the electric flux from the charge passes through the circle, then R = √(3b).It is found that there is a net electric flux of 1.5 × 104 N ⋅ m2/C inward through a spherical surface of radius 6.1 cm. How much electric charge, in coulombs, is located inside the spherical surface?
- For problem 7, calculate the total flux through the one side of the cube in kNm2/C for a particle with a charge 3.39 uC at the center of the cube.(5 sig. figs.)Two hemispherical surfaces, 1 and 2, of respective radii r1 and r2, are centered at a point charge and are facing each other so that their edges define an annular ring (surface 3), as shown. The field at position r⃗ due to the point charge is: E⃗ (r⃗ )=C/r^2 r^ where C is a constant proportional to the charge, r=|r⃗ |, and r^=r⃗ /r is the unit vector in the radial direction. What is the electric flux Φ3 through the annular ring, surface 3, the flux Φ1 through surface 1, and flux Φ2 passing outward through surface 2?A charge emanates an electric field of 7 nN/C. If this field is placed on a rhombus surface that has a side length of 5 mm and one of its angles is 60 degrees and is angled at 60 degrees from the surfave, what is the electric flux?