A proton is enclosed by a closed Gaussian surface. Find the magnitude of the electric flux through it. b. 1.67x10-10 b. 1.82x10-12 c. 1.91x10-8
Q: D. A positive charge is located above the Gaussian cylinder. • Find the sign of the flux through:…
A: From definition of flux to find the sign of flux , we need to see the angle between area vector and…
Q: Consider the cube shown with sides of length L = 18 cm. An external electric field E = 1.4 ×104 N/C…
A: The electric field is given as follow. E=1.4×104 NC Use the expression to calculate the electric…
Q: 1. A point charge is placed at the center of a spherical gaussian surlace. Which of the following…
A: We’ll answer the first question since the exact one wasn’t specified. Please submit a new question…
Q: Prob.6 An insulating solid sphere of radius R = 6.0cm has a total positive charge Q uniformly…
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Q: You measure an electric field of 1.25 * 106 N/C at a distance of 0.150 m from a point charge. There…
A: Given quantities: electric field (E) = 1.25×106 N/C radius of the sphere (r) = 0.15 m Let, the…
Q: 35. A charge q is placed at one of the corners of a cube of side a, as shown below. Find the…
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Q: Find the electric flux (in N· m²/C) through the closed surface whose cross-sections are shown below.…
A: Given data as per question q=2.9×10−8C
Q: A thundercloud produces a vertical electric field of magnitude 28.0 kN/C at ground level. You hold a…
A: The flux through a surface is given as the scalar product of electric field vector and area vector.…
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: The diagram below shows a large uniformly charged sheet field line for an electric field. near the…
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Q: Q1: A circle of radius R at a distance b from a particle with positive charge Q which is located on…
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Q: A cube that has a side sis in a region of uniform electric field E. Find the electric flux through…
A: Electric field is perpendicular to two faces. For the remaining four faces, electric field will be…
Q: You have an infinite charged line (A = -4 nC/m) and would like to know what electric ield it creates…
A: Given The charge density is λ=-4 nC/m=-4×10-9 C/m. The radius of the cylinder is r=0.4 m. The…
Q: A solid ball with a 0.5m radius has 10uC charges in its center. Determine the electrical flux pass…
A: Radius of the ball (r) = 0.5 m Charge on the center (q) = 10uC
Q: Q1. "A Gaussian surface has zero net flux," a tutor at a review session says. "Therefore, there are…
A: NOTE: We are supposed to answer only one question. Kindly repost the other question as to the next…
Q: A point charge produces an electric flux of +305 N-m2 /C through a gaussian sphere of radius 14.5 cm…
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Q: (a) Find the net electric flux through the cube shown.(b) Can you use Gauss’s law to find the…
A: The electric flux through a surface is given by, Here, q = +3.00 nC = 3.00×10-9 C And ε0 = 8.85…
Q: Part (a) Write the electric flux in terms of the charge Qenc enclosed by a closed surface passing…
A: uniform surface charge = 8pC/m2 h=889 m
Q: The Electric Flux and Gauss’ Law You measure an electric field of 1.25 x 106 N/C at a distance of…
A: Electric flux can be said to be the rate of flow of the electric field considering some area.…
Q: 3. A thin insulating rod is bent into a semicircular arc of radius a, and a total electric charge Q…
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Q: A charge q1 of 48 µC is placed at the origin of the xy-coordinate system and a charge q2 of -73 µC…
A: Given data: The magnitude of charges are, q1=48 μCq2=-73 μC
Q: A spherical conductor with radius 40 cm has a surface charge density of +15 C/m2. a) what is the…
A: spherical conductor radius, r=40 cm =0.4 msurface charge density, σ=15 cm2
Q: A charge q = 2 µC is placed at the origin in a region where there is already a uniform electric…
A: The electric flux passing through a Gaussian surface of area S in presence of an electric field E is…
Q: 62.7 million excess electrons are inside a closed surface. Part A What is the net electric flux…
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Q: Ql: A circle of radius R at a distance b from a particle with positive charge Q which is located on…
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Q: A. Four closed surfaces, S₁ through S4, together with the charges - 2Q, Q , and -Q are sketched in…
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Q: The electric field in a particular space is E→ = (x + 1.8)î N/C with x in meters. Consider a…
A: Electric flux through a closed surface is given by-ϕ=∮E.ds=Qenclosedε0
Q: (1) The electric field in a certain region of space is given by E = 200i (i is the unit vector for…
A: ans. (E) none of the above. because the flux through given plane is zero
Q: (a) Calculate the electric flux through the rectangle of sides 5 cm and 10 cm kept in the region of…
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Q: Gauss’s Law relates the total flux through any closed surface to the net charge enclosed within that…
A: Gauss Law states that the total electric flux coming out of a closed surface is equal to the charge…
Q: A nonconducting, thin plane sheet of charge carries a uniform charge per unit area of 6.25 μC/m2 as…
A: A nonconducting, thin plane sheet of charge carries a uniform charge per unit area of 6.25μC/m2.Part…
Q: a) Please explain Gauss and Coulomb law in detail. b. A uniformly distributed charge on the sphere…
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Q: 6. A quadrilateral plate having a side length of 0.8m with A at 55* to a uniform electric field E of…
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Q: 1. A disk of radius 0.10 m is oriented with its normal unit vector î is anti-parallel with the…
A: According to bartleby policy I have to solve only one question at a time .
Q: A thundercloud produces a vertical electric field of magnitude 28.0 kN/C at ground level. You hold a…
A:
Q: 6. A quadrilateral plate having a side length of 0.8m with A at 55° to a uniform electric field E of…
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Q: A region of space contains a uniform electric field, directed toward the right, as shown in the…
A: As points A and B are at same horizontal distance therefore they will have same potential. Point C…
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: 9) The figure shows four Gaussian surfaces surrounding a distribution of charges. +24 (a) Which…
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Q: f you know the electric field everywhere on a closed surface, can you calculate the quantity of…
A: The law that allows to calculate the charge enclosed by a surface when we know the electric field is…
Q: a) Calculate the magnitude of the resultant electric field at the centre of the circle. -7.0 μC -…
A: Data known, Charge q1,q2,q3 is -7.0μC, Radius of circle is 5×10-2m, The angles made by charges…
Q: A disk of radius 0.10 m is oriented with its normal unit vector at 35° to the uniform electric field…
A: GivenRadius of disk ,r=0.1 mAngle ,θ=35°Magnitude of elctric field ,E=2.5 kN/C=2.5×103 N/C
Q: A charge of + 8 uC is evenly distributed over the volume of an insulating sphere of 6 cm radius.…
A: 1. as per the above question, first of all, we just write down the all given conditions here,…
Q: 1A On the diagram below, draw the normal vectors for all six faces of the cube (have the tail of the…
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Q: (a) State Gauss’ law. Using this law, obtain the expression for the electric field due to an…
A: (a) Gauss law: The total electric flux through the closed surface will be equal to 1/ɛ0 times the…
Gauss law problem solving
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- Directions: Choose the letter of the correct answer. 1. A proton is enclosed by a closed Gaussian surface. Find the magnitude of the electric flux through it. b. 1.67x10-10 b. 1.82x10-12 c. 1.91x10-8 2. An electric charge has a magnitude of 1.5x10-19C is enclosed in a sphere. Find the electric flux through this surface. b. 1.69х10-8 b. 1.59x10-8 c.1.49x10-8 3. The magnitude of electric flux is the same throughout the Gaussian surface. Is the statement CORRECT? d. Yes b. No с. Мaybe 4. An electric field passes through a surface produces an electric flux which has a magnitude of 46.m Find the magnitude of the electric field if the surface area is 0.04m². c. 1.84 N/C b.1.74 N/C 5. An electric field (E=6.2N/C) passes through a flat surface area(0.50m2) with an angle of 60°. What will be the magnitude of the electric flux? N.m2 a. 1.64 N/C а. 1.6'° N.m2 b. 2.6" N.m2 с. 3.6"Consider a charged sphere of radius R and charge Q uniformly distributed over its volume. Find the electric flux through a Gaussian spherical surface of radius R/2 centered at the center of the charged sphere. а. Q O b. Zero C. Q 880 d. Q 480 O e. None of themConsider a charged sphere of radius R and charge Q uniformly distributed over its volume. Find the electric flux through a Gaussian spherical surface of radius R/2 centered at the center of the charged sphere. a. Zero O b. None of them O c. 880 Q O d. 480 Q e.
- q = 18X106 C Consider two hollow conducting spheres. Inner radius of the first sphere, a=4.0 m and outer radius, b=16.0 m. Inner radius of the second sphere, c=24 m and outer radius, d = 40 m. a. Calculate the net enclosed charge by the Gaussian surface of radius r=20m. b. Electric field at r=20m. c. Net flux through Gaussian sphere of r=20m. Calculate the potential at the following distances from the point charge q and explain your result. Assume that at infinity the potential is zero. d. Potential at r=d. e. Potential at r=c. f. Potential at r= (c+d)/2A solid insulating sphere with radius Rhas a non-uniform charge density p= ar. Find the magnitude of the electric field for r < R. O a. E 8R eo ar4 O b. E Reo CO C. E p2 4a Reo O d. E ar3 Rco O e. E = 4e0A point charge -3 nC is held stationary at a height of 10 cm from the center of conducting square plate of side length 20 cm. Find the electric flux through the surface of the square plate. Answer Choices: a. 432 N·m²/C b. 87.9 Nm²/C C. 763 N.m²/C d. 56.5 Nm²/C
- 1. A proton is enclosed by a closed Gaussian surface. Find the magnitude of the electric flux through it. b. 1.67x1010 2 An electric charge has a magnitude of 1.5x101°C is enclosed in a sphere. Find the electric flux through this surface. b. 1.69x108 3. The magnitude of electric flux is the same throughout the Gaussian surface. Is the statement CORRECT? b. 1.82x1012 c. 1.91x108 b. 1.59x10 c.1.49x10 d. Yes b. No c. Maybe 4. An electric field passes through a surface produces an electric flux which has a magnitude of 46 . Eind the magnitude of the electric field if the surface area is 0.04m?. a. 1.64 N/C b.1.74 N/C c. 1.84 N/C 5. An electric field (E=6.2N/C) passes through a flat surface area (0.50m?) with an angle of 60°. What will be the magnitude of the electric flux? N m2 b. 2.6 N m2 N m2 а. 1.6 с. 3.6.An infinitely long non conducting cylinder of radius R=2.00cm carries a uniform volume charge density of 18.0µC/m3. Calculate the electric field at distance r =1.00 cm from the axis of the cylinder.(ε0 = 8.85 × 10-12 C2/N .m2) Select one: a. 2.50 ×103 N/C b. 5.10 ×103 N/C c. zero d. 2.00 ×103 N/C e. 10.2 ×103 N/CA uniform charge density of 500 nC\m3 is distributed throughout a spherical volume (radius = 16 cm). Consider a cubical(4.0 cm along the edge ) surface completely inside the sphere. Determine the electric flux through this surface. Select one: a. 7.1 N.m2/C b. 3.6 N.m2/C c. 12 N.m2/C d. 19 N.m2/C e. 970 N.m2/C
- SAR A A Gaussian surface has the form of a cube. If 4 nC of charge is placed inside the cube and 3 nC of charge is placed outside the cube, what is the electric flux through the sides of the cube? Answer in N.m²/C. 755A charged sphere with radius 7m has a net charge of 2 μC. If you were to evaluate the electric field at a distance of 2 m, what would be the charge enclosed by your gaussian surface? Note: Use a spherical gaussian surface A. 3.50e-7 C B. 1.16e-7 C C. 4.66e-8 C D. 2.10e-7 CInside a spherical surface is a 2.65 x10-6C and a -1.1 x10-6 C charge. What is the total electric flux through the surface of the sphere in units of N m2/C? Select one: O a. the area must be known. O b. 1.55x 106 О с. 1.7 х 10-16 O d. 1.4 x104 O e. 1.75 x105