A uniform electric field exists in a region of space containing no charges. What can you conclude about the net electric flux through a gaussian surface placed in this region of space?
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A: Given, E = 5.65×10⁵ N/C A = 3.60 m²
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Q: A circular plane, with a radius of 2.2 meters, is immersed in an E-field with a magnitude of 700…
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Q: . Calculate the electric flux through the surface.
A: Flux is defined as number of electric field lines passing through a surface. Flux due to electric…
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
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Q: A closed box has a net electric flux of -4.8×108 N·m2 /C through it. The net amount of charge…
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Q: A +7.0mC fixed charge and a -2.0mC fixed charge are placed inside a hollow plastic cube that has…
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Q: Consider the uniform electric field E = (2.5 j + 2.5 k) × 103 N/C. a) Calculate the electric flux…
A: Given: The uniform electric filed E is (2.5 j⏜ + 2.5 k⏜)×103 N/C. The radius of the circular area in…
Q: A spherical gaussian surface is drawn inside of a hollow sphere with a charge of 6 µC. What is the…
A: Given , a spherical surface is drawn inside a hallow sphere with a charge of 6μc then the…
Q: surface, as sha Calculate the electric flux through the surface.
A: Electric field Effect = 2000N/C Each side a= 2.8mm = 2.8x10-3 m Surface area A =(2.8x10-3)2 m2 =…
Q: An electric field given by E = 5x i - 7y j pierces through a cubic Gaussian surface of edge length…
A: Electric flux
Q: A Positive electric charge Q is distributed uniformly throughout the volume of an insulating solid…
A: Given A charge Q is uniformly distributed over a solid sphere of radius a. We need to find the…
Q: A point charge causes an electric flux of -750 N m2/ C to pass through a spherical Gaussian surface…
A: Given value--- A point charge causes an electric flux of -750 N m2/ C to pass through a spherical…
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 Length l = 0.400 m breadth b = 0.600 m Electric field E = 95.0 N/C Angle θ…
Q: A square that has 23 cm long edges is centered on the x axis in a region where there exists a…
A: Calculate the area of the square. A=L2A=(23 cm×1 m100 cm)2A=0.0529 m2
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 vertical electric field of magnitude 2.00 × 104 N/C exists above the Earth's surface on a day when…
A: Electric flux is defined as the number of electric field lines that are passing through a given…
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- There is an electric flux of 22.5 N-m²/C through the square region shown in the figure. Each side of the square has a length of 0.100 m, it is the unit vector normal to the plane of the surface, and the electric field is at an angle of 0 101.0 relative to the plane of the surface. Assuming that the field is uniform over the region shown, what is the magnitude E of the electric field? E= 1.179 x104 Incorrect N/CA box with a cross-section of 1m x 1m x 1m is surrounding a plan of charge. The uniform electric field is equal to 8 N/C. The total electric flux through this box isA flat sheet is in the shape of a rectangle with sides of lengths 0.400 m and 0.600 m. The sheet is immersed in a uniform electric field of magnitude 55.0 N/C that is directed at 20 degrees from the plane of the sheet (Figure 1). Find the magnitude of the electric flux through the sheet. Express your answer with the appropriate units.
- A nonconducting wall carries charge with a uniform Q5 density of 8.60 µC/cm². (a) What is the electric field 7.00 cm in front of the wall if 7.00 cm is small comparedA Gaussian surface in the form of a hemisphere of radius R = 5.84 cm lies in a uniform electric field of magnitude E = 2.20 N/C. The surface encloses no net charge. At the (flat) base of the surface, the field is perpendicular to the surface and directed into the surface. (a) What is the flux through the base? ______________N · m2/C(b) What is the flux through the curved portion of the surface? _______________N · m2/CIf you know the electric field everywhere on a closed surface, can you calculate the quantity of charge enclosed by the surface? Name the law that allows you to perform this calculation