Electrostatics-Electric Field Due to a Point Charge (AIIMS (All India Institute of Medical Sciences) Physics): Questions 1 - 2 of 2

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Question number: 1

» Electrostatics » Electric Field Due to a Point Charge

Appeared in Year: 2004

MCQ▾

Question

The electric field due to a uniformly charged sphere of radius R as a function of the distance from its centre is represented graphically by, [AIIMS]

Choices

Choice (4) Response

a.

Graph of electric field verses distance (Choice-A)

Graph of Electric Field Verses Distance (Choice-A)

Figure shows the electric field due to a uniformly charged sphere of radius R as a function the distance from its centre.

b.

Graph of electric field verses distance (Choice-B)

Graph of Electric Field Verses Distance (Choice-B)

Figure shows the electric field due to a uniformly charged sphere of radius R as a function the distance from its centre.

c.

Graph of electric field verses distance (Choice-C)

Graph of Electric Field Verses Distance (Choice-C)

Figure shows the electric field due to a uniformly charged sphere of radius R as a function the distance from its centre.

d.

Graph of electric field verses distance (Choice-D)

Graph of Electric Field Verses Distance (Choice-D)

Figure shows the electric field due to a uniformly charged sphere of radius R as a function the distance from its centre.

Question number: 2

» Electrostatics » Electric Field Due to a Point Charge

Appeared in Year: 2000

MCQ▾

Question

Figure below show regular hexagon, the charges are placed at the vertices. In which of the following cases the electric field at the centre is zero. [AMU]

Choices

Choice (4) Response

a.

Regular hexagon with charges at vertices - Choice A

Regular Hexagon With Charges at Vertices - Choice A

In figure a regular hexagon is shown. And the charges are placed at the vertices of the hexagon.

b.

Regular hexagon with charges at vertices - Choice B

Regular Hexagon With Charges at Vertices - Choice B

In figure a regular hexagon is shown. And the charges are placed at the vertices of the hexagon.

c.

Regular hexagon with charges at vertices - Choice C

Regular Hexagon With Charges at Vertices - Choice C

In figure a regular hexagon is shown. And the charges are placed at the vertices of the hexagon.

d.

Regular hexagon with charges at vertices - Choice D

Regular Hexagon With Charges at Vertices - Choice D

In figure a regular hexagon is shown. And the charges are placed at the vertices of the hexagon.

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