No, not with current technology.
If by "land lines" you mean electrical wires, cables, or optical fibers, then sound doesn't travelthrough these. They're used to carry electric currents or light beams from place to place, whichare continuously being changed in pre-arranged ways, to carry information that make it possibleto construct a copy of the sound at the receiving end.
Electric lines are used to transmit electricity from power plants to homes, businesses, and industries. They create a network that distributes electrical power to different locations for lighting, heating, cooling, appliances, and machinery to function.
comes from the bottem of the world or Electric Current
parallel lines never meet. it is an optical illusion
The lines in each diagram represent an electric field. The stronger the field, the close together the lines are.
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 what my teacher said, I wrote this down in my notes) The answer is, Step-up transformers are used to increase the voltage of an electric current before it is sent out over transmission lines from the electric company. Step-down transformers are used to reduce the voltage of current from high-voltage transmission lines before it enters homes and businesses. Some devices, such as televisions, contain step-up transformers that increase the voltage once again.
(This is what my teacher said, I wrote this down in my notes) The answer is, Step-up Transformers are used to increase the voltage of an electric current before it is sent out over transmission lines from the electric company. Step-down transformers are used to reduce the voltage of current from high-voltage transmission lines before it enters homes and businesses. Some devices, such as televisions, contain step-up transformers that increase the voltage once again.
Electric lines are on top of the pole to keep them out of the way.
Magnetic field lines always form closed loops, while electric field lines begin and end on charges. Additionally, magnetic field lines do not originate from monopoles, while electric field lines can begin and end on electric charges.
infrastructure
infrastructure