Q: A flat surface of area 1.25 m2 is rotated through a uniform horizontal electric field of 5 N/C. What…
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Q: Inside the region in the shape ( Rectangular box) there is no electric charge. The uniform electric…
A: In the given system having a rectangular box placed such that electric field is passing…
Q: To compute for the flux the direction of the area must be _______ to the electric field
A: Electric flux through an area is defined as the number of electric field lines that pass through…
Q: An electric field Ẽ = Bzk exists in space. Total electric flux through a sphere of radius R centered…
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Q: What is the net electric flux through the torus (i.e., doughnut shape) of the figure? Assume that…
A: The net charge enclosed is q = –5.0 nC.
Q: What is the electric flux through a cube of side 1 cm which encloses an electric dipole?
A: Electric flux is the rate of flow of the electric field through a given area. It is proportional to…
Q: Calculate the electric flux through the rectangle of sides 5 cm and 10 cm kept in the region of a…
A: Electric flux ϕ=EAcosθE is the electric field,A is the area of the rectangle and θ is the angle A=5…
Q: Consider a charged sphere of radius R and charge Quniformly distributed over its volume. Find the…
A: Consider a Gaussian sphere with charge Q and radius R. If we have an electric field of E→, E→ =…
Q: A flat circle of radius 31.25 cm is rotated through a uniform horizontal electric field of 7.5 N/C.…
A: The expression for the electric flux is written as, Here, E, A and θ represent the electric field,…
Q: A uniform electric field given by E = 3.0 N/C passes through a square that is 200 cm long. What is…
A: Given data: Electric field E=3.0N/C Length of the square l=200 cm=2m
Q: Find the electric flux through the plane surface shown in the figure below if θ = 63.6°, E = 339…
A: To determine: What is the electric flux through the plane surface?
Q: Find the net electric flux through the spherical closed surface shown in the figure below
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Q: A particle of charge 5.4 mC is at the center of a Gaussian cube 40 cm on edge. What is the net…
A: We'll use Gauss's law here
Q: Compare the magnitude of the total electric flux Φcylinder through the cylinder in the two cases…
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Q: Paragraph Total flux passing through a closed surface held in electric field is
A: Electric flux through a closed surface is given as- ϕE=∫E.ds=Qenclosedε0 Gauss law states that the…
Q: A cylinder of radius R and length Lis placed in a uniform electric field Ē, parallel to it's axis,…
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Q: Find the electric flux through the surface of a sphere containing 10 electrons.
A: We will use Gauss's law to find the electric flux through the sphere, which states that the electric…
Q: The net electric flux crossing an open surface is never zero. True or false?
A: The expression for the electric flux is,
Q: A non-uniform electric field given by E =(6.0)i +(5.0y)j is in that space of a cube with side length…
A: Calculate the electric field. Calculate the area of the bottom surface.
Q: A particle with charge Q is located a small distance δ immediately above the center of the flat face…
A: a. With Every small, all points on the hemisphere are nearly at a distance R from the charge, so the…
Q: A flat sheet is in the shape of a rectangle with sides of lengths 0.400 m and 0.600 m. The sheet is…
A: Given data: Length of the rectangle, L=0.600 m Breadth of the rectangle, B=0.400 m Electric field,…
Q: What is the electric flux through a single face of the cube?
A: A cube at the centre of which a charge is placed, Charge, Q = 102 micro coulomb Side of cube = 10 m…
Q: calculate the electric flux through the rectangle of sides 5 cm and 10 cm kept in the region of a…
A: Given: The length of rectangle is l=10 cm. The width of rectangle is w=5 cm. The uniform electric…
Q: An electric field given by E=[8j-(4y'+2y)k] NC is applied to a cube of length 1.8 mas shown in…
A: Electric field , E→ = 8j^ -(4y2 +2y)k^ side length , L = 1.8 m To find = Electric flux through the…
Q: Consider a flat surface of area A immersed in a region of uniform electric field E as shown. What is…
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Q: When does the electric flux result to zero?
A: Yes,It is possible the electric field result is zero. Let us consider a close surface, if there is…
Q: A point charge q=7nC is located at the center of a uniform ring having linear charge density ) and…
A: A point charge q is located at the center of a uniform ring having linear charge density and radius…
Q: A uniform electric fields E passed through an empty connic shaped surface as shown in the figure.…
A: Uniform electric field strength = E Radius of cone = R Height of cone = h
Q: An area vector with magnitude of 2.5m2 has a normal oriented along direction i+j+k. what is the…
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Q: What is the net electric flux through the torus (i.e., doughnut shape) ? Assume that Q=200nC and q=…
A: Gauss Law: It states that the total electric flux out of a closed surface is equal to the ratio of…
Q: What is the electric flux through a closed surface containing a 2.0 μC charge?
A: Given that, a closed surface area having charge q =2μc ⇒ q = 2×10-6c…
Q: A rectangular surface of sides 10 cm and 15 cm is placed inside a uniform electric field of 25 V/m,…
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Q: A plane with a surface area of 15 m² makes an angle of 35 degrees with it. What will be the electric…
A: Given information: The surface area of the plane (A) = 15 m2 The angle the plane makes (θ) = 350 The…
Q: What is the flux due to electric field E = 3 × 103,NC−1 through side of the square 10cm , when it is…
A: Given : E = 3 × 103 NC–1 Side of square (S) = 10 cm = 0.1 m. Area of square (A) = (side)2 = (0.1)2 =…
Q: What is the net electric flux passing through the cylindrical
A: Given data: The length of the cylindrical surface is: L=0.80 m The diameter of the cylindrical…
Q: Is the net flux through the Gaussian surface positive, negative, or zero?
A: Consider the electric field through the surface A is EA EA = k[(Q/rA+2 ) +(-Q/rA- 2 )] k= 1/(4πεo)…
Q: Consider a hollow charged shelFof inner radiusR'and outer radius 2R The volume charge density is…
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Q: Calculate the electric flux passes through the object. A= (Nr) E= 100 N/C R= 150 cm O = 40
A: The electric flux is defined as ϕ = E A cosθ where, E is the electric field, A is the area, θ is…
Q: An infinite charge sheet with a charge density of 8 n c/m? at the z-0.5 plane cut a cylinder with a…
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Q: Figure shows a spherical Gaussian surface of radius 20.0 cm enclosing a charge of +2 C. The electric…
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Q: What is the electric flux through a sphere that has ar radiusof 1 m and carries a charge of +5μC at…
A: Given data: Radius of sphere, r=1 m Charge on sphere, q=+5 μC=5×10-6C
Q: A flat sheet is in the shape of a rectangle with sides of lengths 0.400 m and 0.600 m. The sheet is…
A: Given in question - length (L) = 0.600 m Width(B) = 0.400m…
Q: The net electric flux crossing a closed surface is always zero. True or false?
A: The flux of a vector field through a closed surface is always Zero if there is no net charge…
Q: What is the net electric flux through the sphere? *
A: Given Charge inside sphere q1=1 nC=1×10-9C q2=-3 nC=-3×10-9C Formula Used :- Gauss Law φ=qnetε0
Q: Find the electric flux through the closed surface whose cross-section is below.
A: Given data The charge inside the surface is given as qin = 3 x 10-8 C. The charge outside the…
Q: The square surface shown in the figure measures 4.2 mm on each side. It is immersed in a uniform…
A: Given: E = 1900 NC A = (4.2*10-3)2 θ=350 For a flat surface of area A in a uniform…
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- A cylinder of diameter 1.72 m is in a region where the electric field is as shown in the figure below. If E1 = 42.4 N/C and E2 = 23.1 N/C, what is the net flux through the two end faces of the cylinder? Note that the diagram is not to scale.Consider an infinitesimal segment located at an angular position θ on the semicircle, measured from the lower right corner of the semicircle at x=a, y=0. (Thus θ=π2 at x=0, y=a and θ=π at x=−a, y=0.) What are the x- and y- components of the electric field at point P (dEx and dEy) produced by just this segment? Express your answers separated by a comma in terms of some, all, or none of the variables Q, a, θ, dθ, and the constants k and π.What is the net electric flux through the torus (i.e., doughnut shape) of the figure? Assume that Q=100nC and q=−5.0nC
- A cylinder of diameter 1.72 m is in a region where the electric field is as shown in the figure below. If E1 = 38.0 N/C and E2 = 20.1 N/C, what is the net flux through the two end faces of the cylinder? Note that the diagram is not to scale. N · m2/CIn free space, let D = 8xyz4ax + 4x2z4ay + 16x2yz3 az pC/m2.Find the total electric flux passing through the rectangularsurface z = 2, 0 < x < 2, 1 < y < 3, in the az direction. Find Eat P(2, −1, 3).An electric field given by E = 5x i - 7y j pierces through a cubic Gaussian surface of edge length 2.0 m and positioned as shown in the figure ( E is in N/C and the position x, y are in meters). Calculate the electric flux of through the top face ( in N.m2/C)
- A uniform electric field measured over a square surface with side length d = 15.5 cm makes an angle θ = 67.0° with a line normal to that surface, as shown in the figure below. There is a square horizontal surface with length and width d. The surface has a normal vertical axis at the center with a vector labeled vector E traveling from the center of the plane up and to the right. Vector E and the normal vertical axis form an angle labeled θ. If the net flux through the square is 5.40 N · m2/C, what is the magnitude Eof the electric field (in N/C)? N/CThere are electric charges in a certain region of space. In cylindricalcoordinates (r,theta, z ) the distribution of charges is characterized as pv = 5re^- r (C/m3 )Find the electric field E induced by the charges. Thank you for the help on this question.Imagine you have four identical charge q, placed on the corners of a square. If q = 4.69 nC, then the side of the square is s = 9.65 cm, calculate the magnitude of the electric field acting on the charge at the upper right corner. NOTE: Final answer in SIX decimal places. Then, state the SI unit of the variable being sought off.
- The charge per unit length on the thin rod shownbelow is λ . What is the electric field at the point P? (Hint:Solve this problem by first considering the electric fieldd E→ at P due to a small segment dx of the rod, whichcontains charge dq = λdx . Then find the net field byintegrating d E→ over the length of the rod.)Find the electric field everywhere of an infinite uniform line charge with total charge Q. Sol. Using Gauss's Law: (contour integral E with rightwards harpoon with barb upwards on top) * (stack d A with rightwards harpoon with barb upwards on top) = ___________ /epsilon0 EA = ___________ / epsilon0 Since, its the line charge we use the area of a cylinder surrounding the line charge E*2pi ___________ L= ___________ / epsilon0 But all the charged get enclosed by the cylinder area, so qenc = Q Deriving, we get: E = (1/2(pi*epsilon0))*(___________ /rL) **see picture for the symbols usedFigure 2 shows a nonconducting rod with a uniformly distributed charge Q. The rod forms a half-circle with radius R and produces an electric field of magnitude Earc at its center of curvature P. If the arc is collapsed to a point at distance R from P, by what factor is the magnitude of the electric field at P multiplied?