Ch24-kh1-2. [E]The total electric flux through a closed spherical (diameter 0.20 m) surface is equal to 2.0 N m2 /C. Determine the net charge within the sphere. %3!
Q: The figure below shows a disk of radius 1.50 m is oriented with its normal unit vector n at an angle…
A: Given Radius of disk ,R = 1.50 m Electric field,E = 15.0*103 N/C Angle between area unit vector…
Q: Part 1 In Fig-1, there are two infinite planes A and B, parallel to YZ plane. Their surface charge…
A: Surface charge density on infinite planes A, σA=34nC/m2 Surface charge density on infinite planes B,…
Q: A square surface with sides of 2 m × 2m is located over the xy-plane, where a constant electric…
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Q: The figure shows an electric field passing through a two dimensional surface. GO i) In what…
A: flux through the surface is ϕ=E.A=EAcosa where A is the area vector a is the angle…
Q: Compare the electric flux in a cubical surface of a side 10cm and spherical surface of radius 10 cm,…
A: the
Q: Consider the uniform electric field E = (6.0j + 2.0 k) X 103 N/C. What is its electric flux (in N.…
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Q: Three charges are placed inside a basketball. If the charges are 2.44 nC, –1.64 nC and 0.470 nC,…
A: The three charges are q1 = 2.44nC = 2.44×10-9C q2 = -1.64nC = -1.64×10-9C q3 = 0.470nC = 0.470×10-9C
Q: Charges q1=−9Q and q2=+2Q are located at x=−a and x=+a, respectively. a. What is the net electric…
A: Charge q1 = -9Q is placed at x = -a and charge q2 = +2Q is placed at x = +a.Electric Flux through a…
Q: Four small spheres shown in the figure below have charges of q₁ = -3.00 nC, q2 = 2.40 nC, q3= 5.30…
A: Given: Charges q1=-3 nC, q2=2.40 nC, q3=5.30 nC, q4=-1.80 nC Required: Net electric flux through…
Q: what can you conclude about the relationship among the electric flux, electric field lines, and the…
A: According to Gauss' Law the electric flux through closed surface is equal to the ratio of charge…
Q: Compare the electric flux in a cubical surface of a side 10cm and spherical surface of radius 10 cm,…
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Q: A uniformly charged, straight filament 8.90 m in length has a total positive charge of 2.00 µC. An…
A: Length of the filament = L = 8.9 m Positive charge = The size of filament is much larger than the…
Q: 1a. A proton is enclosed by a closed Gaussian Find the magnitude of the electric flux through it.…
A: 1a. charge of a proton , p = 1.6x10-19 C when the proton is enclosed by the Gaussian surface ,the…
Q: A flat circle of radius 19 cmcm is placed in a uniform electric field of magnitude 7.1×102 N/CN/C .…
A: GivenRadius r = 19 x 10-2 mField E = 7.1 x 102 N/C
Q: A uniform electric field measured over a square surface with side length d = 16.5 cm makes an angle…
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Q: The surface shown is a square and has a side length of 11.0 cm. The electric field acting on this…
A: It is given that
Q: A uniform electric field measured over a square surface with side length d = 16.0 cm makes an angle…
A: We know electric fluxϕ=E·A=EAcosθ ----(1) where E= electric field A = area of surface θ=angle…
Q: A cylinder with radius r = 0.75m and length l = 0.6m that has an infinite line of positive charge…
A: Given- Radius of cylinder (r) = 0.75 m Length of cylinder (L) = 0.6 m Charge per unit length (λ) =…
Q: disk of radius 0.10 m is oriented with its normal vector n at 30 degrees to a unform electric field…
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Q: Sz S1 | Three small spheres shown in the figure below have charges of I 91 = 5.00 nC, q2 = -3.50 nC,…
A: As per guidelines, I can solve one question. If you want solution for other one, please post it as…
Q: h1-2. [E]The total electric flux through a closed spherical (diameter o 2.0 N m2/C. Determine the…
A: Given values:- The electric flux of the closed sphere,(ϕ)=2 N-m2/C -----(1) Diameter of the…
Q: What is the electric flux through a 3 points sphere if that sphere has a radius of 2m and carries…
A: I calculated flux by different number of formulas but it came all the time same as 2262.1 × 103…
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…
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Q: 1. A proton is enclosed by a closed Gaussian surface. Find the magnitude of the electric flux…
A: The electric field at a region is defined as the electric force experienced per unit charge at that…
Q: A charge q1 of 32 µC is placed at the origin of the xy-coordinate system and a charge q2 of -68 µC…
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Q: The cube in the figure (Figure 1)has sides of length L=10.0cm. The electric field is uniform, has a…
A: (a) The expression for electric flux through the side 1 is, Substitute the values, to find the…
Q: Consider a hollow spherical conductive shell of radius (R) 0.2 m with a fixed charge of +2.0 x 10-6…
A: Given, Radius R = 0.2 m Charge q = 2.0 x 10-6 C
Q: 3. Find the electric flux through the left and right sides of an equilateral triangular prism of…
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Q: Find the electric flux ( in units of N.m²/C) through the surface of the rectangle ( 30 cm x 40 cm)…
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Q: 7. A quadrilateral plate having a side length of 0.5m with A at 40° to a uniform electric field E of…
A: Electric flux is defined as number of electric field lines passing through the area. It is a scalar…
Q: Charges q = -9Q and q2 = +2Q are located at z = -a and z = +a, respectively. Part A What is the net…
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Q: . A uniformly charged, straight filament 2.0 m in length has a total positive charge of 3.0 ??. An…
A: GivenLength of straight filament L=2.0 mTotal Positive charge (q)=3.0 μCLength of uncharged…
Q: Calculate the net electric field in N/C generated at point P, r = (1.15x10^-1) metres from charge q1…
A: Given data Charge (q1) = 4.9520×100 nC Distance of point P from q1 (r) = 1.15×10-1 m
Q: Part J: An imaginary spherical surface of radius 5.00 cm is centered on the point x = 0, y = 0, z =…
A: Given that:Radius of the spherical surface, R=5.00 cmCenter of sphere, O (0,0,0)q1=+3.00…
Q: Consider a triangle in the presence of a uniform electric field given by 5.6 i N/C. The endpoints of…
A: Please see the answer below.
Q: A disk of radius 0.10 m is oriented with its normal unit vector îî at 30° to a uniform electric…
A: Radius of the disk r=0.1 m, magnitude of the uniform electric field E=2*103N/C and angle the area…
Q: In a region of space, there is an electric field E ⃗ E→ that is in the z-direction and that has…
A: It is given that
Q: The electric field at 2 cm from the center of long copper rod of radius 1 cm has a magnitude 3 N/C…
A: Given data: The electric field is: E = 3 N/C The radius of copper wire is: R = 1 cm = 0.01 m The…
Q: 1 a) A flat circle radius 18cm is placed in a uniform electric field of magnitude 5.8 x 102 N/C.…
A: The electric flux through a closed surface of area A and a uniform electric field E→…
Q: 1. Find the flux through a spherical Gaussian surface of radius a = 1 m surrounding a charge of 8.85…
A: according to gauss law if any cosed surface contains the net charge q inside its surface then the…
Q: Quick Quiz 15.7 Calculate the magnitude of the flux of a constant clectric field of 5.00 N/C in the…
A: The electric flux is an amount of the field lines passes through the respective area. Φ = E.A (dot…
Q: A charge q1 of 33 µC is placed at the origin of the xy-coordinate system and a charge q2 of -75 µC…
A: We know that flux ϕ=qnet/ϵ0
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…
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Q: What is the magnitude of the electric field at a point 10m to the right from the center of the…
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Q: What is the net electric flux through the cylinder (a) shown in (Figure 1)? What is the net…
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Q: A charge q, of 33 µC is placed at the origin of the xy-coordinate system and a charge q2 of -75 µC…
A: 24 field at P due to charge placed at the origin is…
Q: Four small spheres shown in the figure below have charges of q1 = -3.00 nC, q2 = 2.40 nC, q3 = 5.30…
A: Given problem is based on the Gauss’s law in electrostatics. It states that, “The net electric flux…
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- A cubical gaussian surface is bisected by a large sheet of charge, parallel to its top and bottom faces. No other charges are nearby. (i) Over how many of the cubes faces is the electric field zero? (a) 0 (b) 2 (c) 4 (d) 6 (ii) Through how many of the cubes faces is the electric flux zero? Choose from the same possibilities as in part (i).A cylinder with radius r = 0.75m and length l = 0.6m that has an infinite line of positive charge running along its axis. The charge per unit length in the line is 7µc/m. i. What is the electric flux through the cylinder due to this line of charge? ii. What is the flux through the cylinder if its radius increased to r = 0.32m? iii. What is the electric field intensity at radius r = 0.32m and l = 0.6m? iv. What is the flux through the cylinder if its length increased to l=0.8m? v. What is the electric field intensity at radius r= 0.32 and l=0.8m? vi. Briefly explain the effect of an increase or decrease of radius and length on the electric field intensity.1a. A proton is enclosed by a closed Gaussian Find the magnitude of the electric flux through it. a. 1.67x10−10 b. 1.82x10−12 c. 1.91x10−8 1b. An electric charge has a magnitude of 1.5x10−19? is enclosed in a sphere. Find the electric flux through this a. 1.69x10−8 b. 1.59x10−8 c.1.49x10−8
- A charge emanates an electric field of 113 N/C. If this field is placed on a circular surface with a radius of 37 µm and is angled at 85 degrees from the surface, what is the electric flux? ( with illustration so that I can visualize it)Part J: An imaginary spherical surface of radius 5.00 cm is centered on the point x = 0, y = 0, z = 0. Calculate the net electric flux through the surface if a point charge q1 = +3.00 nC is located at x = 1.00 cm, y = 1.00 cm, z = 0. Calculate the net electric flux through the surface if the following charges are present: the charge in part J plus a point charge q2 = -8.00 nC at x = 2.00 cm, y = 0, z = -4.00 cm. Calculate the net electric flux through the surface if the following charges are present: the charges in part K plus a point charge q3 = +2.00 nC at x = 4.00 cm, y = -2.00 cm, z = 3.00 cm.what can you conclude about the relationship among the electric flux, electric field lines, and the charge enclosed by the surface?
- The surface shown is a square and has a side length of 11.0 cm. The electric field acting on this area has a magnitude of 108 N/C at an angle of 29.3°. Calculate the electric flux through the shown surface. -0.640 N m2/C 1.14 N m2/C 1.30×104 N m2/C 1.14×104 N m2/CA disk of radius 0.10 m is oriented with its normal vector n at 30 degrees to a unform electric field E vector of a magnitude of 2.0x10^3 N/C. What is the electric flux through the disk? (Provide the complete details for the Illustrated Diagram - inside the box, Given, Required, Equation, Solution, and Answer)What is the electric flux of a sphere with a 1.5m radius experiencing a 102.3 N/C at a 38° angle above the surface of the sphere? Group of answer choices 1.78x10^3 Nm^2/C 1.78x10^-3 Nm^2/C 1.78x10^3 Nm^2/C^2 1.78x10^-3 Nm^2/C^2
- 1 a) A flat circle radius 18cm is placed in a uniform electric field of magnitude 5.8 x 102 N/C. What is the electric flux through the circle when its face is (i) perpendicular to the field lines, (ii)at 45 degrees to the field lines, and (iii) parallel to the field lines? b) An electric field with a magnitude of 3.50 x 103 N/C is applied along the x axis. Calculate the electric flux through a rectangular plane 0.350 m wide and 0.700m long assuming that (i) the plane is parallel to the yz plane; (ii) the plane is parallel to the xy plane; (c) the plane contains the y axis, and its normal makes an angle of 40.0 degrees with the x axis.2. A uniformly charged, straight filament 2.0 m in length has a total positive charge of 3.0 ??. An uncharged cardboard cylinder 0.5 cm in length and 5.0 cm in radius surrounds the filament at its center, with the filament as the axis of the cylinder. Using reasonable approximations, find (a) the electric field at the surface of the cylinder and (b) the total electric flux through the cylinder.A charge q1 of 33 µC is placed at the origin of the xy-coordinate system and a charge q2 of -75 µC is placed on the positive x-axis at x = 24 m. Calculate the flux passing the rectangle of dimensions 9 cm by 19 cm normal to the electric field at at point (24 m, 25 m) in N • m2/C.