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For any charge configuration, equipotential surface through a point is _____to the electric field at that point.
- a)Perpendicular
- b)At 45 degrees
- c)Anti-parallel.
- d)Parallel
Correct answer is option 'A'. Can you explain this answer?
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For any charge configuration, equipotential surface through a point is...
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For any charge configuration, equipotential surface through a point is...
Equipotential surface and Electric field
Equipotential surfaces and electric fields are important concepts in electrostatics. An equipotential surface is a surface on which all the points are at the same potential. Electric field is defined as the force per unit charge experienced by a test charge placed at a point in the electric field.
Perpendicular relationship
The equipotential surface through a point is perpendicular to the electric field at that point. This means that the equipotential surface and the electric field are at right angles to each other at any point on the surface. This relationship is a consequence of the fact that the electric field is a vector field, and the equipotential surface is a scalar field.
Visualizing equipotential surface
To visualize the equipotential surface, imagine a surface through which all points have the same potential. For example, if we have a point charge, the equipotential surfaces will be a series of spherical shells centered on the charge. The potential decreases as we move away from the charge, but any point on a given shell has the same potential.
Visualizing electric field
To visualize the electric field, imagine a vector at each point in space that shows the direction and magnitude of the force that would be experienced by a test charge placed at that point. For example, for a point charge, the electric field lines are radial lines emanating from the charge.
Relationship between equipotential surface and electric field
The relationship between equipotential surface and electric field can be understood in terms of work. When a test charge is moved along an equipotential surface, no work is done because the potential is constant. However, when a test charge is moved along an electric field line, work is done because the potential changes. This means that the equipotential surface and the electric field are always perpendicular to each other.
Equipotential surfaces and electric fields are important concepts in electrostatics. An equipotential surface is a surface on which all the points are at the same potential. Electric field is defined as the force per unit charge experienced by a test charge placed at a point in the electric field.
Perpendicular relationship
The equipotential surface through a point is perpendicular to the electric field at that point. This means that the equipotential surface and the electric field are at right angles to each other at any point on the surface. This relationship is a consequence of the fact that the electric field is a vector field, and the equipotential surface is a scalar field.
Visualizing equipotential surface
To visualize the equipotential surface, imagine a surface through which all points have the same potential. For example, if we have a point charge, the equipotential surfaces will be a series of spherical shells centered on the charge. The potential decreases as we move away from the charge, but any point on a given shell has the same potential.
Visualizing electric field
To visualize the electric field, imagine a vector at each point in space that shows the direction and magnitude of the force that would be experienced by a test charge placed at that point. For example, for a point charge, the electric field lines are radial lines emanating from the charge.
Relationship between equipotential surface and electric field
The relationship between equipotential surface and electric field can be understood in terms of work. When a test charge is moved along an equipotential surface, no work is done because the potential is constant. However, when a test charge is moved along an electric field line, work is done because the potential changes. This means that the equipotential surface and the electric field are always perpendicular to each other.
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For any charge configuration, equipotential surface through a point is...
It's perpendicular i.e. 90�, because there is no electric field parallel to the surface i.e perpendicular to field lines...thus the equipotential surface has to be parallel to the field lines or electric field...
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For any charge configuration, equipotential surface through a point is _____to the electric field at that point.a)Perpendicularb)At 45 degreesc)Anti-parallel.d)ParallelCorrect answer is option 'A'. Can you explain this answer?
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