Current through a 4.7kΩ resistor at 3.3V

Worked answer for 3.3V applied across a 4.7kΩ resistor, using Ohm's law (I = V/R) and power (P = V²/R).

Current 0.7 mA 3.3V ÷ 4.7kΩ · dissipates 2.3 mW

Voltage (V)	3.3 V
Resistance (R)	4.7kΩ
Current I = V / R	0.7 mA
Power P = V² / R	2.3 mW

Driving 3.3V through 4.7kΩ gives 0.7 mA of current (I = V/R) and the resistor must dissipate 2.3 mW of heat (P = V²/R). Pick a resistor power rating comfortably above that figure.

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More 3.3V cases

3.3V across 100Ω → 33.0 mA
3.3V across 220Ω → 15.0 mA
3.3V across 470Ω → 7.0 mA
3.3V across 1kΩ → 3.3 mA
3.3V across 2.2kΩ → 1.5 mA
3.3V across 10kΩ → 0.3 mA

Disclaimer: This is a reference estimate using ideal Ohm's law. Real components have tolerance and self-heating; verify against your part's datasheet and power rating before building.