Microsecond to Millisecond
μs
ms
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Quick Reference Table (Microsecond to Millisecond)
| Microsecond (μs) | Millisecond (ms) |
|---|---|
| 1 | 0.001 |
| 10 | 0.01 |
| 30 | 0.03 |
| 100 | 0.1 |
| 500 | 0.5 |
| 1,000 | 1 |
| 1,000,000 | 1,000 |
About Microsecond (μs)
A microsecond (μs) is one millionth of a second (10⁻⁶ s), the timescale for many electronic and electromechanical processes. A flash of lightning lasts roughly 30 μs. Ultrasound imaging uses pulses in the microsecond range to scan tissue. Camera shutter speeds at 1/1,000,000 of a second are measured in microseconds. CPU cache misses cost tens to hundreds of microseconds in penalty latency. Network round-trip times within a data center are typically 100–500 μs. The microsecond bridges the gap between nanosecond-scale electronics and the millisecond-scale world of human perception.
A lightning stroke lasts about 30 μs. An L1 cache hit on a modern CPU takes ~1 μs. A data center RTT is 100–500 μs.
About Millisecond (ms)
A millisecond (ms) is one thousandth of a second (10⁻³ s), the boundary between what electronics perceive and what humans begin to notice. Human reaction time to a visual stimulus is 150–300 ms. A camera shutter at 1/1,000 s exposes for 1 ms. Internet ping times under 20 ms feel instantaneous in gaming; over 100 ms begins to feel laggy. A blink of an eye takes 100–400 ms. Audio artifacts shorter than about 20 ms are inaudible; longer delays cause perceptible echo. Heartbeat intervals in medical ECG are measured in milliseconds.
Human blink takes 100–400 ms. A ping under 20 ms feels instant in online games. A camera at 1/1000 s exposes for 1 ms.
Microsecond – Frequently Asked Questions
How long does a lightning bolt last in microseconds?
The return stroke of a lightning bolt — the bright visible flash — lasts about 30–50 μs. However, a complete lightning discharge consists of multiple return strokes separated by 40–50 ms each, giving a total duration of 0.2–1.0 seconds. The 30 μs flash is so brief it appears instantaneous to human eyes (which require ~100 ms to perceive motion). High-speed cameras at 1,000,000 fps are needed to capture a single return stroke.
What happens in a microsecond inside a computer?
Modern CPUs execute 1,000–5,000 instructions per microsecond at 3–5 GHz with superscalar pipelines. In 1 μs: a CPU can complete a L3 cache hit, begin 5–10 memory transactions, or execute a branch-prediction miss and recover. A database query hitting an in-memory index resolves in ~10 μs. The gap between in-memory operations (~1–100 μs) and disk I/O (~100,000 μs) explains why databases cache hot data aggressively.
Why does ultrasound use microsecond pulses?
Medical ultrasound transmits brief pulses (1–5 μs) of high-frequency sound (1–20 MHz) and then listens for echoes. Sound travels at ~1,540 m/s in tissue, so a 1 μs round trip corresponds to a tissue depth of ~0.77 mm. To image organs at 10–20 cm depth, pulses must be separated by ~130–260 μs. The microsecond pulse width determines axial resolution — shorter pulses resolve finer tissue boundaries.
Is a microsecond relevant to everyday life?
Mostly indirectly — through GPS, WiFi, and Bluetooth. GPS receivers must time signal arrival from four satellites to ~0.1 μs accuracy to compute position to ~30 m precision. WiFi collision avoidance uses random backoff timers measured in μs (the CSMA/CA protocol specifies 20 μs slot times for 802.11). Bluetooth frequency hopping occurs every 625 μs. Everyday life runs on μs-precision electronics without users knowing.
What is the fastest camera shutter speed in μs?
Conventional DSLRs and mirrorless cameras have mechanical shutter speeds down to 1/8000 s = 125 μs. Flash sync at 1/250 s = 4,000 μs limits flash photography. However, electronic shutters in high-speed scientific cameras can achieve 1 μs or below — used to photograph bullets in flight, airbag deployment, and explosive detonations. The fastest streak cameras achieve picosecond-range time resolution for laser physics.
Millisecond – Frequently Asked Questions
What ping (latency) is acceptable for online gaming?
Under 20 ms feels virtually instant; 20–50 ms is excellent for most games; 50–100 ms is fine for casual play; 100–150 ms causes noticeable delay in fast-paced shooters; above 150 ms is problematic. Fighting games are the most latency-sensitive — competitive Street Fighter players complain about 8 ms differences. Fiber internet typically delivers 5–15 ms within a country; satellite internet (except Starlink) delivers 600+ ms, making real-time gaming impractical.
How long does a human blink take in milliseconds?
A single spontaneous blink takes 100–150 ms for the lid to close and open. Voluntary blinks are slightly slower at 200–400 ms. Humans blink 15–20 times per minute, spending about 10% of waking hours with eyes closed — without noticing, because the brain suppresses visual processing during blinks (saccadic suppression). The brain also smoothly fills in the missing visual gap, which is why blinking does not feel like a strobe effect.
Why does audio below 20 ms not sound like an echo?
The Haas Effect (or precedence effect) means the brain fuses sounds arriving within 30–40 ms of each other into a single perceived sound — the first arrival dominates direction and character. Echoes only become perceptible above ~50 ms. Recording studios use this: adding a delayed copy at 15–20 ms creates a chorus/widening effect without audible echo. Room reflections below 20 ms contribute to the 'liveness' of a space without sounding reverberant.
What does an ECG measure in milliseconds?
An ECG (electrocardiogram) records the heart's electrical cycle in ms. A normal PR interval (atrium to ventricle conduction) is 120–200 ms; QRS complex (ventricular depolarisation) is 80–100 ms; QT interval (ventricular depolarisation + repolarisation) is 350–440 ms. Prolonged QT (>500 ms) indicates arrhythmia risk. Cardiologists rely on ms-precision measurement to diagnose conduction disorders, heart blocks, and pre-excitation syndromes.
How fast is a hummingbird's wingbeat in milliseconds?
A ruby-throated hummingbird beats its wings 50–80 times per second, meaning each complete up-down stroke takes 12–20 ms. During courtship dives, the frequency can reach 200 beats/s (5 ms/beat). By comparison, a honeybee beats at 200 Hz (5 ms), a dragonfly at 30 Hz (33 ms), and a large butterfly at 5–12 Hz (83–200 ms). Smaller flying insects generally have higher wing frequencies because smaller wings generate less lift per stroke.