A formula that is often used is Ohm's Law: voltage = current x resistance.
Current is measured by amperes.
The formula for calculating the power dissipated in a resistor, known as the i2r power, is P I2 R, where P is the power in watts, I is the current in amperes, and R is the resistance in ohms.
The formula for calculating power loss in a transmission line is Ploss I2 R, where Ploss is the power loss in watts, I is the current flowing through the line in amperes, and R is the resistance of the line in ohms.
The cgs unit of current in electromagnetic system equivalent to 10 amperes is 10 amperes.
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power in watts = voltage in volts x current in amps. or power in watts = current in amps x (resistance in ohms) squared i think what you meant was power in watts =(current in amps)squared x resistance in ohms
Amperes - they are the unit of current
Amperes - they are the unit of current
Current is measured by amperes.
Electrical current is measured in amperes.
Probably 47 micro amperes of electric current. That is 0.000047 amperes of current.
Current is measured in amperes. Amperes is also coulombs per second.
The formula for calculating the power dissipated in a resistor, known as the i2r power, is P I2 R, where P is the power in watts, I is the current in amperes, and R is the resistance in ohms.
15500 nano amperes or .0155 milli amperes or .0000155 amperes
Volt times amperes equals watts, which is the unit of electrical power. In this context, volts represent the electrical potential difference, while amperes measure the current flowing through a circuit. The formula is expressed as P (power in watts) = V (voltage in volts) × I (current in amperes). This relationship is fundamental in electrical engineering and helps in calculating the power consumption of devices.
The formula for calculating power loss in a transmission line is Ploss I2 R, where Ploss is the power loss in watts, I is the current flowing through the line in amperes, and R is the resistance of the line in ohms.
electric current is in amperes.