Capacitive reactance of 1nF at 10kHz = 15.9kΩ
Worked answer for the reactance of a 1nF capacitor at 10kHz, using Xc = 1 / (2πfC).
Xc (capacitive reactance) 15.9kΩ 1nF capacitor · 10kHz
| Frequency (f) | 10kHz |
| Capacitance (C) | 1nF |
| Formula | Xc = 1 / (2πfC) |
| Reactance (Xc) | 15.9kΩ |
Capacitive reactance falls as frequency rises — a capacitor passes high frequencies more easily and blocks DC (Xc → ∞ as f → 0).
Different values? Change the frequency, capacitor or inductor in the interactive tool:
Open the Reactance Calculator →Disclaimer: This is an ideal-component reference value. Real capacitors have parasitics (ESR, ESL, lead inductance) that shift the effective reactance — especially near self-resonance. Verify against the part datasheet for precise design.