| Page | Erroneous version | Correct version |
| 20 | Eq 2.1.17 reads νei ≈ vi πb902 ... | Eq 2.1.17 should read νei ≈ ni vi πb902...
|
| 34/5 | which gives us 2πR times the normal derivative of
the flux: ∧eϕ.(∧n∧Bp) = 2πR∧n.∇ψ. | which gives us the normal derivative of
the flux: ∧eϕ.(∧n∧Bp) = (2πR)−1∧n.∇ψ.
|
| 41 | measurements of Bθ, Bψ ... | measurements of Bθ, Bϕ ...
|
| 88 | the tangential x-velocity vt = vd sinθ | the tangential x-velocity vt = vd/ sinθ
|
| 113 | Labeling in Fig 4.1 reads [(2E1E2)/(E12+E22)] | Labeling in Fig 4.1 should read 2E1E2 |
| 137 | Eq 4.3.15 reads ...[(XYcosθ)/(2(1−Y2))][((F2+1)1/2)/F] ... | should read ...[(XYcosθ)/((1−Y2))][((F2+1)1/2)/F] ...
|
| 139 | Eqs 4.3.23,25 read ...[(XY2sin2θ)/(2(1−Y2))]sin2β... | should read ...[(XY2sin2θ)/(4(1−Y2))]sin2β...
|
| 141 | Kunze | should read Kunz
|
| 153 | Ex 4.8 reads ... from Eq(4.5.4) | Ex 4.8 should read ... from Eq(4.5.5)
|
| 157 | Eq 5.1.13 reads ... e−iωt ... | Eq 5.1.13 should read ... eiωt ...
|
| 157 | Eq 5.1.14 reads ... {∧R∧(∧R ... | Eq 5.1.14 should read ... ∧R∧{(∧R ...
|
| 162 | Eq 5.2.16 reads ... cosθ+β|| ... | Eq 5.2.16 should read ... cosθ−β|| ...
|
| 165 | Fig 5.2 caption.
| Add: Only the mass-shift curve is numerically to scale.
|
| 191 | reciprocal of Euler's constant | exponential of Euler's constant
|
| 211 | Eq 5.6.31,2 read ...[(8π)/(3 √{3m2c3})]... | Eq 5.6.31,2 should read ...[(8π)/(3 √3 m2c3)]...
|
| 220 | Eq 6.1.13 reads ...〈i, mi|D|j,mi〉|2... | Eq 6.1.13 should read ...〈i, mi|D|j,mj〉|2
|
| 226 | Eq 6.2.13 reads ... [(〈σk,k + 1v〉)/(Σl 〈σk + 1,kiv〉)], | Eq 6.2.13 should read ...[(〈σk,k + 1v〉)/(Σi 〈σk + 1,kiv〉)],
|
| 235 | electric field E(ω) by Parseval's ... | electric field E(ν) by Parseval's ...
|
| 244 | Fig 6.6 Dielectronic Recombination | curve should be higher by a factor 51/3.
|
| 246 | where l is the intensity | where I is the intensity
|
| 279 | where νs = 2πωs denotes the ... | where ωs = 2πνs denotes the ...
|
| 282 | ... by dividing by f〈Si〉ne d3r ... | ... by dividing by ∫〈Si〉ne d3r ...
|
| 288 | Eq 7.2.32 reads ...[(8π)/(3 √{3m2c3})]... | Eq 7.2.32 should read ...[(8π)/(3 √3 m2c3)]...
|
| 293 | Eq 7.3.4 reads ...ei(ωs t−ks.r′)... | Eq 7.3.4 should read ...ei(ωs t′−ks.r′)...
|
| 294 | Eq 7.3.9 reads ...ei(ωr′−k.r′)... | Eq 7.3.9 should read ...ei(ωt′−k.r′)...
|
| 294 | Eq 7.3.10 reads ... = A〈St〉 = Pi | Eq 7.3.10 should read ... = A〈Si〉 = Pi
|
| 316 | sources j0 | sources j0
|
| 323 | Fig 8.1 caption: ... charge exchange σe | should read ... charge exchange σc
|
| 326 | Eq 8.1.7 reads ... +(σp + σe)ni | Eq 8.1.7 should read ... +(σp + σc)ni
|
| 327 | α ≈ ni(σp + σe) | α ≈ ni(σp + σc)
|
| 327 | Eq 8.1.8 ...(σp + σe) | Eq 8.1.8 ...(σp + σc)
|
| 348 | the quantity 1/2 mev2/2Ry by | the quantity 1/2 mev2/Ry by
|
| 348 | divided by 2Rymproton/me = 25 keV. | divided by Rymproton/me = 25 keV.
|
| 350 | Table 8.1 contains (B4+ line) 4946.0 | should contain 494.60
|
| 355 | Appendix E | Appendix 5
|
| 356 | Appendix E | Appendix 5
|
| 414 | Cyclotron frequency ω | Cyclotron frequency Ω
|
| 414 | Bohr radius a0 ħ 4πϵ0/e2me = | Bohr radius a0 ħ2 4πϵ0/e2me =
|
| 427 | Dodel, G and Kunze | Dodel, G and Kunz |
| 430 | Knudsen, H. ... 23:579 | Knudsen, H. ... 23:597
|
| 430 | Laframboise ... In ... Rarified Gas... | Laframboise ... In ... Rarefied Gas...
|
|