Liquid ejecting apparatus having outflow passage resistance changing member and liquid ejection method thereof

What is claimed is: 1. A liquid ejecting apparatus, comprising: a liquid storage that is configured to store a liquid, a liquid chamber in which a nozzle is provided, the liquid chamber being fluidly connected to the nozzle through which the liquid is ejected, the liquid chamber having first, second, and third chamber states, the first chamber state corresponding to a normal chamber volume, the second chamber state corresponding to a larger chamber volume that is larger than the normal chamber volume, the third chamber state corresponding to a smaller chamber volume that is smaller than the normal chamber volume; an inflow passage that is fluidly connected between the liquid storage and the liquid chamber so as to flow the liquid from the liquid storage to the liquid chamber; a first actuator that is configured to change the states of the liquid chamber among the first, second, and third chamber states; an outflow passage that is fluidly connected between the liquid chamber and the liquid storage so as to flow the liquid from the liquid chamber to the liquid storage, the outflow passage having first and second passage states, the first passage state having a larger passage volume than the second passage state; a second actuator that is configured to change a passage resistance of the outflow passage; and a processor configured to execute computer-readable instructions stored in a memory so as to control the first actuator to cause the liquid to be ejected through the nozzle, the processor being configured to change the states of the first actuator among the first, second, and third chamber states, the processor being configured to change the states of the second actuator among the first and second passage states, wherein the processor is configured to place the second actuator in the first passage state while the first actuator is in the first chamber state, the processor is configured to place the second actuator in the second passage state and to place the first actuator in the second chamber state, the processor is configured to maintain the second actuator in the second passage state and to cause the first actuator to change from the second chamber state to the third chamber state so that the liquid is ejected from the nozzle, the processor is configured to maintain the second actuator in the second passage state and to cause the first actuator to change from the third chamber state to the second chamber state so that a rear end the ejected liquid is cut so as to form a liquid droplet, and the processor is configured to cause the second actuator to change from the second passage state to the first passage state and to cause the first actuator to change from the second chamber state to the first chamber state. 2. The liquid ejecting apparatus according to claim 1 , further comprising: a liquid reservoir that is fluidly connected to the outflow passage and configured to accumulate the liquid discharged from the outflow passage; and a negative-pressure source connected to the liquid reservoir, wherein the liquid reservoir is fluidly connected to the liquid storage, and the negative-pressure source is configured to supply the liquid from the liquid reservoir to the inflow passage through the liquid storage. 3. A liquid ejection method executed by a liquid ejecting apparatus, the liquid ejecting apparatus including: a liquid storage that is configured to store a liquid; a liquid chamber in which a nozzle is provided, the liquid chamber being fluidly connected to the nozzle through which the liquid is ejected, the liquid chamber having first, second, and third chamber states, the first chamber state corresponding to a normal chamber volume, the second chamber state corresponding to a larger chamber volume that is larger than the normal chamber volume, the third chamber state corresponding to a smaller chamber volume that is smaller than the normal chamber volume; an inflow passage that is fluidly connected between the liquid storage and the liquid chamber so as to flow the liquid from the liquid storage to the liquid chamber; a first actuator that is configured to change the states of the liquid chamber among the first, second, and third chamber states; an outflow passage that is fluidly connected between the liquid chamber and the liquid storage so as to flow the liquid from the liquid chamber to the liquid storage, the outflow passage having first and second passage states, the first passage state having a larger passage volume than the second passage state; a second actuator that is configured to change a passage resistance of the outflow passage; and a processor configured to execute computer-readable instructions stored in a memory so as to control the first actuator to cause the liquid to be ejected through the nozzle, the processor being configured to change the states of the first actuator among the first, second, and third chamber states, the processor being configured to change the states of the second actuator among the first and second passage states, the liquid ejection method comprising for causing the processor to execute a process, the method comprising executing on the processor the steps of: placing the second actuator in the first passage state while the first actuator is in the first chamber state, placing the second actuator in the second passage state and placing the first actuator in the second chamber state, maintaining the second actuator in the second passage state and causing the first actuator to change from the second chamber state to the third chamber state so that the liquid is ejected from the nozzle, maintaining the second actuator in the second passage state and causing the first actuator to change from the third chamber state to the second chamber state so that a rear end the elected liquid is cut so as to form a liquid droplet, and causing the second actuator to change from the second passage state to the first passage state and causing the first actuator to change from the second chamber state to the first chamber state.