If the magnetic field and conductor are moved together at the same rate, what will happen to the electrical energy generated?

When a magnetic field and a conductor are moved together at the same rate, there is no relative motion between them. In electromagnetic induction, the generation of electrical energy depends on the relative motion between the magnetic field and the conductor. If they are moving in unison, the conductor does not "cut" through the magnetic lines of flux, which is necessary to induce electromagnetic force (emf) as per Faraday's Law of Electromagnetic Induction.

When there is no change in the magnetic flux through the conductor, no voltage is induced according to Faraday's Law. Therefore, since the movement of both components is synchronized, the conditions needed to generate electrical energy do not occur, resulting in no electrical energy being produced.