n conversions

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N conversions

ν = nu

ν =frequency

= v/λ

= c/λ

= cycle/second

= c · wave #

= ΔE/h

= E/nh

= BH/h

= (hν₀ + .5mv²)/h

= (K.E. + hν₀)/h

= nh/2πmrλ

ν₀ = 2(E - mv²)/2h

= (.5 mv² - hν)/h

= (hν - K.E.)/h

ν₁ = 60 Hz (rotor)

νN_T = E_{Tf Avg}/4Φ_m

νN_P = E_P/4.44Φ_m

νN_s = E_s/4.44Φ_m

ν_rotor = slip ∙ ν_stator (Hz)

N = # turns in coil

= T

= F/I

= AT

N = numerius

= number

N = # of molecules

= F3l/mv²_mean

= 3Pl³/mv²_mean

= 3PV/mv²_mean

= nN_A

= K.E./.5mv²

N = Newton

= Pa ∙ m²

= (kg ∙ m)/s²

= J/m

= .2248 lb (k₁)

N = Normality

= Eq^#/L

= # eq. solute/liter sol'n

N = rotative speed in revol/min.

N_A = Avagadro's #

= 6.0221 ∙ 10²³/n

= R/1.3625 ∙ 10^-25

N₀ = 6.022 ∙ 10²³/n

N₁V₁ = N₂V₂

Na/2 = μ₀Iπ/Φ

Na/2πμ₀ = I/Φ

NAω = E_m/B

NAωwsinα = E/B

N/dt = -E/dΦ

N/l = H/I

Nlωwsinα = E/B

= 2 E/B

Nlv = E/B

Nlv sin α = E/B

NμA/l = Φ/I

Nμ₀/l = B/I

N_p = # turns in primary coil

= E_P/4.44νΦm

N_PI'_P = N_sI_s

N_P/N_s = E_P/E_s

= I_sI_P

N_s = # turns in secondary coil

= E_sN_P/E_P

N_sI_s= # demagnetizing amp turns

= mmf nec. to reduce flux induced by primary

N/t = E_{Avg. Tf} /Φ_m

N_T = N turns

n = any number

n = # of cylinders

(n^logⁿ)^u = u

n = mole

= g/MW

= P3V/N_Amv²_mean

= 2r/λ

= V/k

= v2mr/h

= E/hν

= 2e²Z/vh

= 2l/h

= h/2rmv

= n₁/n_Fract.

= n₁P_T/P₁

= 2 K.E./3RT

= O_PV/nRT

= PV/RT

= P/k

= N/N_A

= cV

= ΔH/ΔH_mean

= ΔH⁰_Rx/(Σ_prodΔH⁰_{mean F} - Σ_RxΔH⁰_{mean F})

= ΔS_T/(Σ_prodS_mean - Σ_RxΔS_mean)

= w/-RT ln V₂/V₁ (isotherm., id. g., PV work only)

= q_V/Ĉ_VΔT (ht. absorp. only, 0 Rx, 0 Δ phase)

= C_VΔT/Ĉ_VΔT (ht. absorp. only, no Rx, no Δ phase)

= q_P/Ĉ_PΔT (ht absorp. only, no Rx, no Δ phase)

= C_PΔT/Ĉ_PΔT (ht absorp. only, no Rx, no Δ phase)

= q_rev./RT ln V₂/V₁ (isotherm., id. g., PV work only)

= ΔS/R ln V₂/V₁ (isotherm., id. g., expans., rev., irrev.)

= ΔS/R ln P₁/P₂ (isotherm., id. g., expans., rev., irrev.)

= ΔS/Ĉ_P,V ln T_F/T_i (small ΔT, C indep. of T)

n⁰ = neutron

= 1.675 ∙ 10^-30 g

= 1.505 ∙ 10^-11 J

n₁ = G₁/Ĝ₁ (id. g., isotherm., mix.)

= G₁/(Ĝ₁^θ + RT ln P₁/P^θ) (id. g., isotherm., mix.)

= V₁n₂/V₂

= V_Tм

= (m ∙ g₂)/1000

= P₁n_T/P_T

= (molality ∙ g_T)/1000

= V_H2O (0⁰C + H₂O_F.P.)/1.86

= n₁% ∙ n_T

n/ = n₁/n_T

= X_A

n/_gas_{in soln} = X

n² = -2²e⁴mZ²/Eh²

n⁺ = n^-

n% = n₁/n_T

= pP/P

nRT = PV

n_diss_. = i

n_gas = ΔH/ΔH_mean

Δn_gas = - ((ΔE - ΔH_mean)/RT)

= PΔV/RT

= (ΔH - ΔE)/RT

nanometer = nm

naran, nanan (?Phoen.) = five

natural log = ln

nee (Jap.) = two

negative = south pole

= -

neuf (F.) = nine

neun (G.) = nine

neunzig (G.) = ninety

neunzigst (G.) = ninetieth

neutron = n⁰

neuvieme (F.) = ninth

Newtons = N

= Force exerted on charge in magnetic field

ng = nanogram

= 10^-9 g

nine = ennea (Gr.)

= novem (L.)

= neuf (F.)

= neun (G.)

= novenus (L.)

= nueve (Sp.)

= kyoo (Jap.)

nine hundred = enneakosioi, -es, -a (Gr.)

= nongenti (L.)

nine hundredth = enneakosiostos (Gr.)

nineteen = dekaennea (Gr.)

= novemdecim (L.)

= undeviginti (L.)

nineteenth = nonusdecimus (L.)

ninth = nonus (L.)

= neuvieme (F.)

ninetieth = enenekostos (Gr.)

= nonagesimus (L.)

= neunzigst (G.)

ninety = enenekonta (Gr.)

= eneenta (Gr.)

= nonaginta (L.)

= neunzig (G.)

= quatre-vingt-dix (F.)

= novente (Sp.)

ninety nine = undecentum (L.)

NlsinΦ = F/BI

nm = nanometer

= millimicron

= 10 angstroms

= 10^-9 meter

nomos = rule

nonagesimus (L.) = ninetieth

nonaginta (L.) = ninety

nongenti (L.) = 900

nonus (L.) = 1/9

nonusdecimus (L.) = 1/19

Normality = N

novem (L.) = nine

novemdecim (L.) = nineteen

novente (Sp.) = ninety

novenus (L.) = nine

NsinΦ = M/ΦI

nueve (Sp.) = nine

numerius = N

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