electric potential difference (Q77597807)
line integral over the sum of electric field strength and the time derivative of the magnetic vector potential
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Current Data About electric potential difference
(P279) (Q107715)

(Q3707379)

(Q181175)

(P460) (Q25428)

(P1343) (Q26711936)
(P958) 6-11.2
(P1810) electric potential difference

(Q117847945)
(P958) 6-11.2
(P1810) electric potential difference

(P1889) (Q55451)

(Q25428)

(P2534) V_{\mathrm{a} \mathrm{b}} = \int\limits_{\boldsymbol{r}_\mathrm{a} (\mathrm{C})}^{\boldsymbol{r}_\mathrm{b}} \left (\boldsymbol{E} + \frac{\partial \boldsymbol{A}}{\partial t} \right ) \cdot \mathrm{d} \boldsymbol{r}
(P248)
(P958) 6-11.2

V_{\mathrm{a} \mathrm{b}} = V_{\mathrm{a}} - V_{\mathrm{b}}
(P248)
(P958) 6-11.2

(P4020) \mathsf{L}^2 \mathsf{M} \mathsf{T}^{-3} \mathsf{I}^{-1}

(P6104) (Q8487137)

(P7235) V_{\mathrm{a} \mathrm{b}}
(P9758)

\boldsymbol{E}
(P9758)

\boldsymbol{A}
(P9758)

t
(P9758)

\boldsymbol{r}
(P9758)

V_{\mathrm{a}}
(P9758)

V_{\mathrm{b}}
(P9758)

\int_{\boldsymbol{c}} \boldsymbol{F} \cdot \mathrm{d}\boldsymbol{s}
(P9758)

(P7973) V_{\mathrm{a} \mathrm{b}}
(P248)
(P958) 6-11.2

(P8111) (Q25250)
(P248)

(Q107299709)
(P248)
(P958) 6-11.2

other details
description line integral over the sum of electric field strength and the time derivative of the magnetic vector potential

External Links
(P7431) ElectricPotentialDifference
(P8393) ElectricPotentialDifference
(P8855) 121-11-26