Electric flux through a closed surface enclosing a charge https://youtu.be/JtBvijJk_Tg | By Physics with Muhammad Arafat Khan | Facebook
![A point charge q is placed at the origin. Calculate the electric flux through the open hemispherical surface : ( x ? a ) 2 + y 2 + z 2 = a 2 , x ? a | Homework.Study.com A point charge q is placed at the origin. Calculate the electric flux through the open hemispherical surface : ( x ? a ) 2 + y 2 + z 2 = a 2 , x ? a | Homework.Study.com](https://homework.study.com/cimages/multimages/16/4891105922500288434581.png)
A point charge q is placed at the origin. Calculate the electric flux through the open hemispherical surface : ( x ? a ) 2 + y 2 + z 2 = a 2 , x ? a | Homework.Study.com
![SOLVED: Calculate the flux JF ds through the surface of the sphere in the figure of the vector field: F(R,0,0) =(nkz J8R 8 cos(e) @ 4R 6 The field is written in SOLVED: Calculate the flux JF ds through the surface of the sphere in the figure of the vector field: F(R,0,0) =(nkz J8R 8 cos(e) @ 4R 6 The field is written in](https://cdn.numerade.com/ask_images/05c4974512214d2a875cc272a6bd6c19.jpg)
SOLVED: Calculate the flux JF ds through the surface of the sphere in the figure of the vector field: F(R,0,0) =(nkz J8R 8 cos(e) @ 4R 6 The field is written in
![Electric Flux, Gauss's Law & Electric Fields, Through a Cube, Sphere, & Disk, Physics Problems - YouTube Electric Flux, Gauss's Law & Electric Fields, Through a Cube, Sphere, & Disk, Physics Problems - YouTube](https://i.ytimg.com/vi/q1eor6oIuUo/sddefault.jpg)
Electric Flux, Gauss's Law & Electric Fields, Through a Cube, Sphere, & Disk, Physics Problems - YouTube
![Session 80: Flux Through a Surface | Part B: Flux and the Divergence Theorem | 4. Triple Integrals and Surface Integrals in 3-Space | Multivariable Calculus | Mathematics | MIT OpenCourseWare Session 80: Flux Through a Surface | Part B: Flux and the Divergence Theorem | 4. Triple Integrals and Surface Integrals in 3-Space | Multivariable Calculus | Mathematics | MIT OpenCourseWare](https://mitocw.ups.edu.ec/courses/mathematics/18-02sc-multivariable-calculus-fall-2010/4.-triple-integrals-and-surface-integrals-in-3-space/part-b-flux-and-the-divergence-theorem/session-80-flux-through-a-surface/MIT18_02SC_L27Brds_8.png)
Session 80: Flux Through a Surface | Part B: Flux and the Divergence Theorem | 4. Triple Integrals and Surface Integrals in 3-Space | Multivariable Calculus | Mathematics | MIT OpenCourseWare
![A spherical Gaussian surface encloses a charge of 17.7 xx 10^-8C:- Calculate the electric flux passing though the surface. A spherical Gaussian surface encloses a charge of 17.7 xx 10^-8C:- Calculate the electric flux passing though the surface.](https://d10lpgp6xz60nq.cloudfront.net/web-thumb/644493554_web.png)
A spherical Gaussian surface encloses a charge of 17.7 xx 10^-8C:- Calculate the electric flux passing though the surface.
![electromagnetism - Why surface normal is used while defining flux through an open surface? - Physics Stack Exchange electromagnetism - Why surface normal is used while defining flux through an open surface? - Physics Stack Exchange](https://i.stack.imgur.com/Fw0OZ.jpg)
electromagnetism - Why surface normal is used while defining flux through an open surface? - Physics Stack Exchange
![If the total electric flux through the paraboloidal surface due to a uniform electric field of magnitude E0 in the direction shown in fig is ϕ = XE0 pi r^2/2 . Find If the total electric flux through the paraboloidal surface due to a uniform electric field of magnitude E0 in the direction shown in fig is ϕ = XE0 pi r^2/2 . Find](https://dwes9vv9u0550.cloudfront.net/images/1806971/9404f2c6-c9de-4d7f-a7a8-927852819175.jpg)
If the total electric flux through the paraboloidal surface due to a uniform electric field of magnitude E0 in the direction shown in fig is ϕ = XE0 pi r^2/2 . Find
![The diagram below shows a Gaussian surface in the form of cylinder of radius R immersed in a uniform electric field E, with the cylinder axis parallel to the field. Calculate the The diagram below shows a Gaussian surface in the form of cylinder of radius R immersed in a uniform electric field E, with the cylinder axis parallel to the field. Calculate the](https://homework.study.com/cimages/multimages/16/untitled-16291485592780025616.jpg)