Washing machine and drying machine

What is claimed is: 1. A washing machine comprising: an outer casing; a tub mounted in the outer casing; a rotating tub rotatably mounted in the tub; a vibration damping device provided in the outer casing for damping vibration of the tub using a cylinder enclosing a magnetic viscous fluid which changes a viscosity when an electric energy is applied thereto, the vibration damping device including: the cylinder; a shaft inserted into the cylinder; a coil disposed in a the cylinder and extending the shaft two yokes disposed between the cylinder and the shaft located at both axial sides of the coil in the cylinder respectively, the yokes forming a magnetic circuit together with the shaft and the cylinder, the shaft and the coil defining a first gap, one of the yokes and the shaft defining a second gap, the other yoke and the shaft defining a third gap, all the gaps being filled with the magnetic viscous fluid; a sealing member disposed axially outside one of the yokes in the cylinder to seal the magnetic viscous fluid to prevent leaking of the magnetic viscous fluid; and two bearings located axially outside the respective yokes in the cylinder to support the shaft so that the shaft is axially reciprocable relative to the yokes, the bearings, and the sealing member; and a control unit configured to execute an energizing control of the coil to change the viscosity of the magnetic viscous fluid according to rotation of the rotating tub in a dehydration step, thereby varying a damping force of the vibration damping device. 2. The washing machine according to claim 1 , wherein the control unit is configured to control the viscosity of the magnetic viscous fluid so that the damping force of the vibration damping device is rendered relatively higher in a low speed range in which the tub causes a primary resonance during the dehydration step and so that the damping force of the vibration damping device is rendered relatively lower in a high speed range which is higher than the low speed range. 3. The washing machine according to claim 1 , wherein the control unit is configured to control the viscosity of the magnetic viscous fluid so that the damping force of the vibration damping device is rendered relatively higher in a low speed range in which the tub causes a primary resonance during the dehydration step and so that the damping force of the vibration damping device is rendered relatively lower in a high speed range which is higher than the low speed range. 4. The washing machine according to claim 1 , wherein the control unit is configured to control the viscosity of the magnetic viscous fluid so that the damping force of the vibration damping device is stepwise varied during a period from a steady rotational speed of the rotating tub to rotation stop of the rotating tub. 5. The washing machine according to claim 1 , further comprising a temperature detection unit which detects a temperature inside or outside the outer casing, wherein the control unit is configured to control the viscosity of the magnetic viscous fluid so that the damping force of the vibration damping device is rendered relatively higher when a detection temperature obtained by the temperature detection unit is lower than a predetermined temperature and so that the damping force of the vibration damping device is rendered relatively lower when the detection temperature obtained by the temperature detection unit is equal to or higher than the predetermined temperature.