Meyer Sound announces the 2100-LFC subwoofer ('low-frequency control element' in Meyer-speak) for the Panther large-format linear line array loudspeaker.
By pairing a Class D amplifier with a single, all-new 21-inch driver with four voice coils [Ed.- maybe... Read more
Ohm's law
The most basic formulas derive from Ohm's law, which specifies that the electric current between two points is proportional to the potential difference (voltage) between them and inversely proportional to the resistance between them. The formula is:V | |
I = | ——— |
Z |
where I is the current (intensity) in amps and V is the voltage in volts. Since we use alternating current in audio, we have replaced resistance with impedance (Z, and this could also be resistance R), measured in ohms. Clearing Z and V we have these other two formulas:
V | |
Z = | ——— |
I |
and
V = | I*Z |
Joule's law
Electrical power is the rate at which an electrical circuit transfers electrical energy. It is measured in watts, after the engineer James Watt famous for his advances in steam engines.This formula is erroneously assigned to Ohm's law even though the original law did not include it. Joule's law determines that electrical power is given by the product of voltage and current:
P = | V*I | |
Combinations of both laws
When we combine both laws (Ohm's law which determines the current and Joule's law which determines the power) we obtain numerous derived formulas which are added to the original ones. A usual way of bringing them all together is by means of this circle of formulas:Go to part 2: Apparent power, kVAs, real power