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Size: 621
Comment:
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Size: 795
Comment:
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| Deletions are marked like this. | Additions are marked like this. |
| Line 2: | Line 2: |
| . 1.3e36 particles per second, presumed monatomic hydrogen | * 1.3e36 particles per second, presumed monatomic hydrogen |
| Line 6: | Line 6: |
| . slow wind 300–500 km/s, temperature ~1e5 K, twice as dense → 5e-15 kg/(m²-s) . fast wind 750 km/s, temperature ~8e5 K, half as dense → 3e-15 kg/(m²-s) |
* slow wind 300–500 km/s, temperature ~1e5 K, twice as dense → 5e-15 kg/(m²-s) . RMS isotropic thermal velocity 1.6 km/s * fast wind 750 km/s, temperature ~8e5 K, half as dense → 3e-15 kg/(m²-s) . RMS isotropic thermal velocity 4.5 km/s |
| Line 9: | Line 11: |
| . RMS isotropic thermal velocity = sqrt( 3 k T / m ) ≈ 0.157 km/s * sqrt( T ) |
Solar Wind
- 1.3e36 particles per second, presumed monatomic hydrogen
- Area at 1 AU = 4π ( 150e9m )² = 2.8e23 m², hence flux = 1.3e36 H/s / 2.8e23 m² ≅ 5e12 H/(m²-s)
- Hydrogen mass 1.67e-27 kg, mass flux - 8e-15 kg/(m²-s)
- slow wind 300–500 km/s, temperature ~1e5 K, twice as dense → 5e-15 kg/(m²-s)
- RMS isotropic thermal velocity 1.6 km/s
- fast wind 750 km/s, temperature ~8e5 K, half as dense → 3e-15 kg/(m²-s)
- RMS isotropic thermal velocity 4.5 km/s
- RMS isotropic thermal velocity = sqrt( 3 k T / m ) ≈ 0.157 km/s * sqrt( T )