A spherical conducting shell if inner ra...

A spherical conducting shell if inner radius `R_(1)` and outer radius `R_(2)` has a charge Q. A charge q is placed at the centre of the shell.
Write an expression for the electric field at a point `XgtR_(2)` from the centre of the shell.

Answer

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A charge q is placed at the centre of the open end of cylindrical vessel. The flux of the electric field through the surface of the vessel is

zero

`(q)/(epsilon_(0))`

`(q)/(2epsilon_(0))`

`(2q)/(epsilon_(0))`

A charge of 5 C is placed at the centre of a spherical Gaussian surface of radius 5 cm. The electric flux through it is:

0.1 C

0.5 C

1 C

5 C

A charge q is placed at the centre of an imaginary cubical body. Electric flux through any one of its faces is

`(q)/(epsi_(0))`

`(6q)/(epsi_(0))`

`(q)/(6epsi_(0))`

`(q)/(3 epsi_(0))`

A spherical conducting shell if inner radius `R_(1)` and outer radius `R_(2)` has a charge Q. A charge q is placed at the centre of the shell.
Write an expression for the electric field at a point `XgtR_(2)` from the centre of the shell.

Answer

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A charge q is placed at the centre of the open end of cylindrical vessel. The flux of the electric field through the surface of the vessel is

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A charge q is placed at the centre of an imaginary cubical body. Electric flux through any one of its faces is

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A spherical conducting shell if inner radius `R_(1)` and outer radius `R_(2)` has a charge Q. A charge q is placed at the centre of the shell. Write an expression for the electric field at a point `XgtR_(2)` from the centre of the shell.

Answer

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A charge q is placed at the centre of the open end of cylindrical vessel. The flux of the electric field through the surface of the vessel is

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A spherical conducting shell if inner radius `R_(1)` and outer radius `R_(2)` has a charge Q. A charge q is placed at the centre of the shell.
Write an expression for the electric field at a point `XgtR_(2)` from the centre of the shell.