The Quantum Computers use qubits (or qbits), the quanta bits, which can assume values 0 or 1, or a superposition of both. In this work, we propose a new type of quantum bit, the Gravitational Quantum Bit or Gqbit, which can be used as an information unit. The concept of the Gqbit is based on the theory of the Gravitational Electromotive Force (Gemf) [1], which shows that, when an electron absorbs a quantum of energy sufficient strong, the gravitational force acting upon it (its weight) changes of direction. The weight of the electron can assume two fundamental statuses. For up, (gravitational force in opposite direction to the gravity g )and, for down (gravitational force in the same direction of g ). Conventionally, we can then assume that for up, the weight of the electron represents the number 0, and that for down, it represents the number 1, similarly to the spin of the electron, which can be interpreted as if the electron rotates in one direction or the other - in this case, rotation in one direction would represent 0 and, in the other, it would represent 1.