Its gets tired the further it goes, that's why when it reaches the socket and shocks you (ANGRY ELECTRICITY).
No, the voltage across a capacitor cannot change instantaneously. It takes time for the voltage across a capacitor to change due to the storage and release of electrical energy in the capacitor.
The voltage equation and the electric field in a system are related through the equation: V E d, where V is the voltage, E is the electric field, and d is the distance between the points in the system. This equation shows that the voltage is directly proportional to the electric field strength and the distance between the points in the system.
Each time you drop the magnet through the coil, it induces a change in magnetic field, which in turn creates a voltage in the coil. This voltage fluctuates as the magnet moves through the coil, causing a change in the electrical potential.
When a current flows through a capacitor, the voltage across it increases or decreases depending on the rate of change of the current. If the current is constant, the voltage remains steady. If the current changes rapidly, the voltage across the capacitor changes quickly as well.
The equation that relates voltage (V) and electric field (E) in a given system is V E d, where V is the voltage, E is the electric field, and d is the distance between the points where the voltage is measured.
An electricity substation is needed to change the high voltage needed for transmission of power over a distance down to low voltage needed to supply houses etc.
Your question is unclear. But, if you are asking what the relationship between voltage and the distance between conductors is, then the higher the voltage, the greater the distance must be.
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.
Capacitors resist a change in voltage. It takes current to effect a voltage change, resulting in the current "leading" the voltage. Similarly, inductors resist a change in current. It takes voltage to effect a current change, resulting in the current "lagging" the voltage.
Number of turns in the secondary winding define the voltage. Change the number of turn to change the voltage.
When voltage is changed, the distance electrons travel in a circuit will increase if the voltage is increased, and decrease if the voltage is decreased. This is because voltage is directly proportional to the energy of the electrons, which affects how far they can travel through the circuit.
By installing the varialble resistor in the circuit,the constant dc voltage would change .
is there a minimum distance between 480 volt phases. ANOTHER ANSWERThere is no such thing as a 'phase-to-phase' voltage. The correct term is 'line-to-line', which is why that voltage is called a 'line voltage'. The distance between these line conductors depends on the value of the line voltage; the greater the line voltage, the greater this distance must be to prevent any flashover. These distances are specified in the utility company's standards or regulations.
Two plates with a voltage between them have an electric field in the space between them equal to the voltage divided by the distance. A single sphere at a high voltage has an electric field round it that decreases with distance. High voltage components have a strong electric field round them, and this can be dangerous, so it is usual to specify the maximum acceptable field and set a safe distance for people on that basis.
change in voltage from no load to full load
The device to do that is called an inverter.
Not materially. The voltage is determined by the composition of the electrodes and the medium in which they are placed.