Electromagnetic relay

What is claimed is: 1. An electromagnetic relay comprising: a coil configured to form a magnetic field when energized; a fixed component including a fixed core constituting a magnetic circuit and configured to generate attraction when the coil is energized, the fixed component being immovable at time of energization and de-energization of the coil; a mobile component including a movable core constituting a magnetic circuit and attracted toward the fixed core by the attraction, the mobile component being movable at the time of energization and de-energization of the coil; a fixed contact fixed to a base; and a movable contact configured to follow the movable core to come into contact with and separate from the fixed contact, wherein: a damping space is provided between the mobile component and the fixed component and changes in volume with a movement of the mobile component; a gap is provided between the mobile component and the fixed component, and the gap serves as a passage that allows gas to flow into or out of the damping space when the damping space changes in volume; and a size of the gap is set such that a pressure is generated in the damping space to cause a damping force acting on the mobile component when the damping space changes in volume. 2. The electromagnetic relay according to claim 1 , wherein the damping space is one of a plurality of the damping spaces. 3. The electromagnetic relay according to claim 2 , wherein the plurality of damping spaces is formed such that at least one of the damping spaces increases in volume when at least another of the damping spaces decreases in volume. 4. The electromagnetic relay according to claim 1 , wherein a communication hole is formed in the fixed component, and the communication hole serves as a passage that allows gas to flow into or out of the damping space when the mobile component is within a part of an entire range of movement of the mobile component. 5. An electromagnetic relay comprising: a coil configured to form a magnetic field when energized; a fixed core constituting a magnetic circuit and configured to generate attraction when the coil is energized; a movable core constituting a magnetic circuit and attracted toward the fixed core by the attraction; a shaft integrated with the movable core; a fixed contact fixed to a base; and a movable contact configured to follow the movable core to come into contact with and separate from the fixed contact, wherein: a damping space is defined by the shaft and the movable contact and changes in volume with a relative movement of the shaft and the movable contact; a gap is provided between the shaft and the movable contact, and the gap serves as a passage that allows gas to flow into or out of the damping space when the damping space changes in volume; and a size of the gap is set such that a pressure is generated in the damping space to cause a damping force acting on the shaft and the movable core when the damping space changes in volume. 6. The electromagnetic relay according to claim 5 , wherein a communication hole is formed in the movable contact, and the communication hole serves as a passage that allows gas to flow into or out of the damping space when the mobile component is within a part of a range of relative movement of the shaft and the movable contact. 7. An electromagnetic relay comprising: a coil configured to form a magnetic field when energized; a fixed component immovable at time of energization and de-energization of the coil; and a mobile component movable at the time of energization and de-energization of the coil is energized and de-energized, wherein: a damping space is provided between the mobile component and the fixed component and changes in volume with a movement of the mobile component; a gap is provided between the mobile component and the fixed component, and the gap serves as a passage that allows gas to flow into or out of the damping space when the damping space changes in volume; and a size of the gap is set such that a pressure is generated in the damping space to cause a damping force acting on the mobile component when the damping space changes in volume.