A spherical Gaussian surface surrounds a...

A spherical Gaussian surface surrounds a point charge q. If the charge is moved to another location inside the surface? Then total flux_____________

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AI Generated Solution

To solve the problem, we will use Gauss's Law, which states that the electric flux (\( \Phi \)) through a closed surface is directly proportional to the charge enclosed within that surface. The mathematical expression of Gauss's Law is given by: \[ \Phi = \frac{Q_{\text{enc}}}{\varepsilon_0} \] where: - \( \Phi \) is the electric flux, ...

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A Gaussian surface enclosed no charge. Which of the following is true for a point inside it ?

electric field must be zero

electric potential must be zero

both electric potential and intensity must be zero

none of these

A point charge causes an electric flux of -200 Nm^(2)//C to pass through spherical Guassian surface of 10 cm radius centered on the charge. If the radius of the Guassian surface is doubled, the total electric flux passing through the surface is

`-200 Nm^(2)//C`

`-100 Nm^(2)//C`

`+200 Nm^(2)//C`

`-50 Nm^(2)//C`

Consider the charge configuration and a spherical Gaussian surface as shown in the figure. When calculating the flux of the electric field over the spherical surface, the electric field will be due to.

`q_2`

only the positive charges

all the charges

`+q_1` and `-q_1`