$$\nabla \times A = B$$

A is vector magnetic potential, $\mathrm{Wb/m}$

B is magnetic field intensity, $\mathrm{Wb/m^2}$

Where does one more m come from for B? Is that from the gradient operator so it is in meter or something?

$$\nabla \times A = B$$

$A$ is vector magnetic potential, $\mathrm{Wb/m}$

$B$ is magnetic field intensity, $\mathrm{Wb/m^2}$

Where does one more m come from for $B$? Is that from the gradient operator so it is in meter or something?

$$\nabla \times A = B$$

A is vector magnetic potential, $\mathrm{Wb/m}$

B is magnetic field intensity, $\mathrm{Wb/m^2}$

Where does one more m come from for B? Is that from the gradiet operator so it is in meter or something?

$$\nabla \times A = B$$

A is vector magnetic potential, $\mathrm{Wb/m}$

B is magnetic field intensity, $\mathrm{Wb/m^2}$

Where does one more m come from for B? Is that from the gradient operator so it is in meter or something?

$$\nabla \times A = B$$

A is vector magnetic potential, $Wb/m$

B is magnetic field intensity, $Wb/m^2$

Where does one more m come from for B? Is that from the gradiet operator so it is in meter or something?

$$\nabla \times A = B$$

A is vector magnetic potential, $\mathrm{Wb/m}$

B is magnetic field intensity, $\mathrm{Wb/m^2}$

Where does one more m come from for B? Is that from the gradiet operator so it is in meter or something?