The Speed of Light
The Universe's Ultimate Speed Limit
Explore the PhysicsLight travels at exactly 299,792,458 meters per second—roughly 670 million miles per hour. This isn't just a fast speed; it's a fundamental constant that defines the structure of spacetime. Nothing with mass can reach it; nothing can exceed it. 理解する the speed of light reveals deep truths about the universe we inhabit.
Why 299,792,458 Exactly?
Since 1983, the meter has been defined as the distance light travels in 1/299,792,458 of a second. This makes the speed of light exactly 299,792,458 m/s by definition—not a measured value, but a fixed constant that defines our measurement system.
The second is defined by cesium atomic vibrations, making both time and length tied to fundamental physics rather than physical artifacts.
Speed of Light in Different Units
| Unit | Value |
|---|---|
| メートル per second (m/s) | 299,792,458 |
| キロメートル per second (km/s) | 299,792.458 |
| キロメートル per hour (km/h) | 1,079,252,848.8 |
| マイル per second (mi/s) | 186,282.397 |
| マイル per hour (mph) | 670,616,629 |
| Astronomical units per day | 173.145 |
| Light-years per year | 1 (by definition) |
Light Travel Times
| Distance | Light Travel Time |
|---|---|
| 1 meter | 3.3 nanoseconds |
| 1 kilometer | 3.3 microseconds |
| Around the Earth | 133 milliseconds |
| Earth to Moon | 1.3 seconds |
| Earth to Sun | 8.3 minutes |
| Sun to Pluto | ~5.5 hours |
| 変換先 nearest star (Proxima Centauri) | 4.24 years |
| Across Milky Way | ~100,000 years |
| 変換先 Andromeda galaxy | ~2.5 million years |
“The speed of light is not just a speed—it's the rate at which causality itself propagates through the universe.”
Why Nothing Can Exceed Light Speed
Einstein's Special Relativity
According to Einstein's 1905 theory:
- As an object approaches the speed of light, its mass effectively increases
- Accelerating further requires increasingly more energy
- Reaching c would require infinite energy
- Therefore, massive objects can never reach c
Massless Particles
Photons (light particles) have zero rest mass and always travel at c. They cannot travel slower or faster—only exactly at the speed of light.
Comparing Speeds to Light
| Object/Speed | Speed | Fraction of c |
|---|---|---|
| Walking human | 5 km/h | 0.0000000046 |
| Commercial jet | 900 km/h | 0.00000083 |
| Earth orbit speed | 107,000 km/h | 0.0001 |
| Space probe (Parker Solar) | 700,000 km/h | 0.00065 |
| Electron in particle accelerator | ~0.9999999999c | 0.9999999999 |
Even our fastest spacecraft travel at less than 0.1% of light speed.
Speed of Light in Different Media
Light only travels at c in a vacuum. In matter, it slows down:
| Medium | Speed of Light | Percentage of c |
|---|---|---|
| Vacuum | 299,792,458 m/s | 100% |
| Air | 299,702,547 m/s | 99.97% |
| Water | 225,000,000 m/s | 75% |
| Glass | 200,000,000 m/s | 67% |
| Diamond | 124,000,000 m/s | 41% |
The ratio c/(speed in medium) is called the refractive index.
まとめ
The speed of light—299,792,458 m/s—is far more than just a very fast speed. It's a fundamental constant that defines how our universe works, from the structure of spacetime to the definition of the meter itself. Nothing with mass can reach it; nothing at all can exceed it. At cosmic scales, even light speed feels slow: the nearest star is 4 years away, and the edge of the observable universe is 46 billion light-years distant.