WebThe instantaneous voltage drop across an inductor is directly proportional to the rate of change of the current passing through the inductor. The mathematical relationship is given by v = L (di/dt). Inductors do not have a stable “ resistance ” as conductors do. However, there is a definite mathematical relationship between voltage and ... WebThe relationship between Amps and kVA is well defined for single-phase and three-phase systems. ... the apparent power S in kVA is equal to the square root of 3 (1.732) times the current I in amps times volts V, divided by 1,000. For example, find the apparent power in kVA for 440-volt three-phase circuit with 150 amps of current. S ...
What is the relationship between voltage and amperage?
WebJan 9, 2024 · R = Resistance in Ohm. I = Current in Amperes. V = Voltage. The simplest way to convert from Amps to resistance, is by the formula of Ohm’s law, dividing the voltage between the current. For example, if you have an electronic processor with a voltage of 5V DC and an amperage of 0.2 Amp, you must divide 5 by 0.2, as follows 5 / 0.2 = 25 ohm. WebAn electric circuit is capable of transferring power. Current is the rate of flow of charge, … peripheral smear reporting ppt
What is the relationship between AC frequency, volts, …
WebOhm’s law: One of the most important laws of electric circuits: the relationship between the voltage across a component, the current in the component and the electric resistance exhibited by the component to the flow of electricity. For a simple resistor, it is V = RI. Ohm’s law states that if the current in a resistor with a resistance R ... WebDec 28, 2024 · It attempts to maintain the same speed but must pull more current to increase or maintain the torque it needs to work. Remember that work is equal to joules, which is equal to 1 watt over 1 second. Watts RMS … WebDec 23, 2024 · This is because 1 watt equals 1 joule per second, and 1 amp of current is equal to 1 coulomb of electrical charge per second. Therefore, 1 amp times 1 joule per coulomb equals 1 watt. To calculate amps to watts, multiply the amps by the voltage of the circuit. For example, if you have a 12-volt circuit, 12 amps times 12 volts equal 144 watts. peripheral smear normal range