The distance between underground water and electric lines varies depending on local regulations and safety codes. In general, it is recommended to maintain a safe distance of at least 10 feet between underground water sources and electric lines to prevent the risk of electric shock or interference. It is advisable to consult with local authorities or utility companies for specific guidelines in your area.
Equipotential lines in an electric field are imaginary lines that connect points having the same electric potential. Along these lines, no work is required to move a charge between the points, as the electric potential is the same. Equipotential lines are always perpendicular to electric field lines.
This is because space is 3-dimensional. When going outwards, the lines of force disperse over a larger area. For example, at 10 times the distance, they will disperse over a cross-sectional area that is 100 times greater.
Electric field lines represent the direction of the electric field at any point in space. If there were sudden breaks in the field lines, it would imply sudden changes in the electric field strength, which is not physically possible. The electric field must vary continuously and smoothly in space.
The density of equipotential lines is inversely proportional to the strength of the electric field in a given region. This means that where the equipotential lines are closer together, the electric field is stronger, and where they are farther apart, the electric field is weaker.
When the area is perpendicular to the field lines, the magnitude of electric flux is given by the product of the electric field strength, the area of the surface, and the cosine of the angle between the field lines and the normal to the surface. This is known as Gauss's Law for electric fields.
No but parallel lines have a constant distance between them
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parallel lines - they are parallel when the distance between them remains constant
If the distance between the lines is constant then they are parallel.
Equipotential lines in an electric field are imaginary lines that connect points having the same electric potential. Along these lines, no work is required to move a charge between the points, as the electric potential is the same. Equipotential lines are always perpendicular to electric field lines.
This is because space is 3-dimensional. When going outwards, the lines of force disperse over a larger area. For example, at 10 times the distance, they will disperse over a cross-sectional area that is 100 times greater.
The distance between high voltage lines is governed by either a switching impulse voltage or lightning impulse voltage. The distance between lines, or lines and tower must have a high enough dielectric strength to avoid flashover at these voltage. Air can withstand a voltage of 3kv/mm.
The shortest distance between two paralle lines is the length of the line that is perpendicular to both line and intersects both.
The shortest distance between 2 parallel lines is a perpendicular drawn between 2 parallel lines the diagram shows it clearly 1 parallel line ------------------------------------|-------------------------------------------------------------------- | | | the vertical line is the shortest distance | | ------------------------------------|------------------------------------------------------------------- 2nd parallel line
The perpendicular distance between two parallel lines is always the same.
The distance between railway lines varies depending on the type of railway track and the country. 60 percent of railway lines in the world, however, use the 1,435 mm standard gauge.
14 m