Space is electrical and time is magnetical force

If we examine speeds approaching the speed of light, then these equations apply to space-time:

x = ct

x' = ct'

If we consider a plane wave in a vacuum, vector induction and intensites relations are related

The relationship between the magnitudes of plane wave amplitudes in vacuum

Electric field intensity and magnetic induction are then bound by the same constant c as space and time.

Therefore, if we obtained wave equations for time and space from the Lorentz transformation, we can try to apply these equations to the relations of electric field intensity and magnetic induction. However, this would mean that the deformation of space-time is directly related to electromagnetism.

Or more precisely it would mean that deformation of space is directly related to electric field intensity and deformation of time is directly related to magnetic induction.