Derive the power in terms of voltage and current.

1.	Derive the power in terms of voltage and current.
Answer» Answer: ok Explanation: Ohm's law equation (formula): V = I × R and the power law equation (formula): P = I × V. P = power, I or J = Latin: influare, international ampere, or INTENSITY and R = resistance. V = voltage, electric potential DIFFERENCE Δ V or E = electromotive force (emf = voltage). Ohm's law equation (formula): V = I × R and the power law equation (formula): P = I × V. P = power, I or J = Latin: influare, international ampere, or intensity and R = resistance. V = voltage, electric potential difference Δ V or E = electromotive force (emf = voltage).Wattage or power P: watts W Ohm's law equation (formula): V = I × R and the power law equation (formula): P = I × V. P = power, I or J = Latin: influare, international ampere, or intensity and R = resistance. V = voltage, electric potential difference Δ V or E = electromotive force (emf = voltage).Wattage or power P: watts WVoltage or VOLTS E or V: volts V Ohm's law equation (formula): V = I × R and the power law equation (formula): P = I × V. P = power, I or J = Latin: influare, international ampere, or intensity and R = resistance. V = voltage, electric potential difference Δ V or E = electromotive force (emf = voltage).Wattage or power P: watts WVoltage or volts E or V: volts VResistivity or resistance R: ohms Ω Ohm's law equation (formula): V = I × R and the power law equation (formula): P = I × V. P = power, I or J = Latin: influare, international ampere, or intensity and R = resistance. V = voltage, electric potential difference Δ V or E = electromotive force (emf = voltage).Wattage or power P: watts WVoltage or volts E or V: volts VResistivity or resistance R: ohms ΩAmperage or current I: AMPERES, amps A

1.

Derive the power in terms of voltage and current.

Answer»

Answer:

ok

Explanation:

Ohm's law equation (formula): V = I × R and the power law equation (formula): P = I × V. P = power, I or J = Latin: influare, international ampere, or INTENSITY and R = resistance. V = voltage, electric potential DIFFERENCE Δ V or E = electromotive force (emf = voltage).

Ohm's law equation (formula): V = I × R and the power law equation (formula): P = I × V. P = power, I or J = Latin: influare, international ampere, or intensity and R = resistance. V = voltage, electric potential difference Δ V or E = electromotive force (emf = voltage).Wattage or power P: watts W

Ohm's law equation (formula): V = I × R and the power law equation (formula): P = I × V. P = power, I or J = Latin: influare, international ampere, or intensity and R = resistance. V = voltage, electric potential difference Δ V or E = electromotive force (emf = voltage).Wattage or power P: watts WVoltage or VOLTS E or V: volts V

Ohm's law equation (formula): V = I × R and the power law equation (formula): P = I × V. P = power, I or J = Latin: influare, international ampere, or intensity and R = resistance. V = voltage, electric potential difference Δ V or E = electromotive force (emf = voltage).Wattage or power P: watts WVoltage or volts E or V: volts VResistivity or resistance R: ohms Ω

Ohm's law equation (formula): V = I × R and the power law equation (formula): P = I × V. P = power, I or J = Latin: influare, international ampere, or intensity and R = resistance. V = voltage, electric potential difference Δ V or E = electromotive force (emf = voltage).Wattage or power P: watts WVoltage or volts E or V: volts VResistivity or resistance R: ohms ΩAmperage or current I: AMPERES, amps A

Derive the power in terms of voltage and current.

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Derive the power in terms of voltage and current.​

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Derive the power in terms of voltage and current.