It goes negative to positive.
It is positive to negative.
Electricity is transmitted at a high voltage of 400000 volts so that it may be able to travel for a long distance.
Simply put, the straight line is the on, and the circle is the off. These symbols represent an electrical circuit. The Straight line represents a closed circuit, which means the switch is on and the electric current can travel through it, and the circle means and open circuit, where the current cannot travel because the circuit is open. A quick trick to remember: "O, Open, Off".
Positive stop means that the thing you are moving has stopped because it has come into contact with something else (interference.) It has reached the limit of its range of travel.
Yes. In fact, the Navy can shoot projectiles 110+ nautical miles with cannons that use electricity instead of gunpowder for power.
It is positive to negative.
electricity can travel through anything with a positive and negative electrical charge
Electricity travels in a closed circuit when it does work.
Yes an electricity travels in an electromagnetic circuit. No it Doesn't
Electricity travels in a closed circuit when it does work.
There is a potential difference (voltage) between two points and a path for electrons to travel from an area of low potential (negative) to an area of high potential (positive). Note the direction of "current flow" is opposite the direction of electron flow. In other words current flows from positive to negative. In a circuit involving only a resistor, the current flowing in the circuit is given by I=V/R where I = current, V= voltage, and R=resistance.
a circuit.
"closed"
To whom it may concern, Did you mean to ask what is static electricity?? If so the term static, which means stays the same, means the electricity in a circuit is static; it does not change direction and electrons only have 1 path to travel. An example of a static circuit would be a DC ( Direct Current) circuit, whereas an AC circuit; alternating current, alternates between 120v to 0v, then 0 to negative 120, back to 0v, then to positive 120v, however, this happens at so fast you would never catch a reading on a multi meter.
The electricity follows the entire length of the wire. if any part of the circuit is broken, all the electricity stops moving in the circuit.
parallel and series
The flow of the electricity is being pushed through the circuit because of the electrons.