A uniform electric field exists between parallel plates of equal but opposite charges.
lines that all the points on it have the same head pressure and eqipotential lines are always prependicular to the stream lines .
As we know equipotential surface means there is no potential difference that is no work is done on surface.so lines of force must intersect surface at right angles to satisfy this statement,so that net work is zero.
I am not sure what situation you are talking about; usually such curves should be smooth.
concentric spherical surfaces
VERTICAL LINES-lines that are at right angle and or perpendicular to a plane.HORIZONTAL LINES-lines that are parallel to the horizon.ANGULAR LINES-lines that have sharp edges. They can be long or short.CURVE LINES-lines that are without angles.SLANTING OR DIAGONAL-lines that suggest action or movement.JAGGED LINES-lines that are harsh and unpleasant.
Equipotential lines are lines that are perpendicular to the lines representing the electric field of a particle. A particle can travel freely of equipotential lines without doing any work.
Multimeter is an instrument that measures electric equipotential. Equipotential lines can be determined by connecting various points of electric potential or voltage.
The angle is a right angle.
For conductors, the electric field perpendicular to its surface and no field exist within the conductor. As a result the equipotential lines are found near the surface. They are parallel to the surface since equipotential are perpendicular to field lines.
No. If two equipotential surfaces intersect, then there would be two values of electric potential at the point of intersection, which is not possible.
lines that all the points on it have the same head pressure and eqipotential lines are always prependicular to the stream lines .
As we know equipotential surface means there is no potential difference that is no work is done on surface.so lines of force must intersect surface at right angles to satisfy this statement,so that net work is zero.
If the field lines were not perpendicular to the surface, then they could be decomposed into components perpendicular and parallel to the surface. But if there is an E-field along the surface, the surface is no longer an equipotential.
I am not sure what situation you are talking about; usually such curves should be smooth.
what is the geometrical shape of equipotential surface due to single isolated charge
No, two equipotential surfaces cannot intersect. These are surfaces where the gradient of potential is zero always.
For parallel electrodes, the field lines are all parallel to each other, since each electrode acts as an equipotential surface, meaning it has the same potential throughout its entire surface, except at the ends, where the field lines are no longer parallel to the other field lines. Hope this helps!