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quantitysymbolreferenced inequation
G value in nuclear chemistryMath - mathG value in nuclear chemistryG
gain, G of a photomultiplierMath - mathgain, G of a photomultiplierG
gain, G of a photomultiplierG = k σ n
generation time, t G in biotechnologyMath - mathgeneration time, t G in biotechnologyt G
Gibbs energy (function), GMath - mathchemical equilibriumG
Marcus equation (for electron transfer)Δ G ‡ = ( λ + Δ ET G o ) 2 4 λ
Marcus equation (for electron transfer)Δ ET G o
Math - cidriving force (for electron transfer)Δ ET G o
Gibbs energy of photoinduced electron transferΔ ET G o = N A e E o D +• / D − E o A / A −• + w D +• A −• − w DA − Δ E 0,0
Gibbs energy of photoinduced electron transferΔ ET G o = N A e ( E ox o − E red o ) + z A − z D − 1 e 2 4 π ɛ 0 ɛ r a − Δ E 0,0
normal region (for electron transfer)Δ ET G o
normal region (for electron transfer)− Δ ET G o ≤ λ
Rehm–Weller equationk q = k d 1 + k d K d Z exp ( Δ G ‡ R T ) + exp ( Δ ET G o R T )
Math - applymiscibility( ∂ 2 Δ mix G ∂ ϕ 2 ) T , p > 0
miscibilityΔ mix G
Gibbs energy of activation (standard free energy of activation), Δ ‡ G o Math - mathGibbs energy of activation (standard free energy of activation), Δ ‡ G o Δ ‡ G o
Math - applyGibbs energy of activation (standard free energy of activation), Δ ‡ G o Δ ‡ G = R T ln ( k B h ) − ln ( k T )
Math - applyMarcus equation (for electron transfer)k ET = κ ET k T h exp ( − Δ G ‡ R T )
Marcus equation (for electron transfer)Δ G ‡ = ( λ + Δ ET G o ) 2 4 λ
Rehm–Weller equationk q = k d 1 + k d K d Z exp ( Δ G ‡ R T ) + exp ( Δ ET G o R T )
Rehm–Weller equationΔ G ‡
Gibbs film elasticityMath - applyGibbs film elasticityE = A ( ∂ σ ∂ A ) T , p , n i