Orthodontic aligner with isolated segments

What is claimed is: 1. A method comprising: forming a first segment of a plastic orthodontic aligner for moving a first set of teeth of a patient; forming a second segment of the plastic orthodontic aligner; and joining the first segment of the plastic orthodontic aligner to the second segment of the plastic orthodontic aligner using a connector configured to minimize force transmission between the first segment and the second segment; wherein the connector is configured to be disposed along one or more additional teeth of the patient without exerting a clinically significant force on the one or more additional teeth, wherein the connector spans a gap between the first segment and the second segment, the gap corresponding to the one or more additional teeth that are not to receive the clinically significant force, wherein the connector comprises a flexible material that will perform at least one of flex, move or change shape responsive to applied forces, wherein the connector is configured to isolate first forces applied to the first set of teeth covered by the first segment from separate and distinct second forces applied to a second set of teeth covered by the second segment, and wherein isolation of the first forces from the second forces enables a) the first forces to be applied to the first set of teeth without substantial interference from the second forces applied to the second set of teeth and b) the second forces to be applied to the second set of teeth without substantial interference from the first forces applied to the first set of teeth. 2. The method of claim 1 , wherein: forming the first segment of the plastic orthodontic aligner comprises: generating a first mold of a first portion of a dental arch that includes a first model of the first set of teeth; and thermoforming or pressure forming the first segment over the first mold; and forming the second segment of the plastic orthodontic aligner comprises: generating a second mold of a second portion of the dental arch that includes a second model of the second set of teeth; and thermoforming or pressure forming the second segment over the second mold. 3. The method of claim 1 , wherein the forming of the first segment and the forming of the second segment are performed together in a process comprising: generating a mold of a dental arch for the patient; thermoforming or pressure forming a plastic over the mold to form the plastic orthodontic aligner; and cutting the plastic orthodontic aligner to separate the plastic orthodontic aligner into the first segment and the second segment. 4. The method of claim 1 , wherein the connector comprises an elastic adhesive that bonds to the first segment at a first end and to the second segment at a second end. 5. The method of claim 1 , wherein the connector is to minimize force transmission in a first direction without minimizing force transmission in a second direction. 6. An orthodontic aligner comprising: a first plastic segment having a first shape that fits over a first portion of a dental arch of a patient, wherein the first plastic segment is configured to apply a force to a first set of teeth in the first portion of the dental arch; a second plastic segment having a second shape that fits over a second portion of the dental arch of the patient; and a connector that joins the first plastic segment to the second plastic segment, wherein the connector is to minimize force transmission between the first plastic segment and the second plastic segment, wherein the connector is configured to be disposed along one or more additional teeth of the patient without exerting a clinically significant force on the one or more additional teeth, wherein the connector spans a gap between the first segment and the second segment, the gap corresponding to the one or more additional teeth that are not to receive the clinically significant force, wherein the connector comprises a flexible material that will perform at least one of flex, move or change shape responsive to applied forces, wherein the connector is configured to isolate first forces applied to the first set of teeth covered by the first segment from separate and distinct second forces applied to a second set of teeth covered by the second segment, and wherein isolation of the first forces from the second forces enables a) the first forces to be applied to the first set of teeth without substantial interference from the second forces applied to the second set of teeth and b) the second forces to be applied to the second set of teeth without substantial interference from the first forces applied to the first set of teeth. 7. The orthodontic aligner of claim 6 , wherein the connector is to minimize force transmission in a first direction without minimizing force transmission in a second direction. 8. The orthodontic aligner of claim 6 , wherein the connector comprises at least one of a semi-rigid thermoset, a semi-rigid thermoplastic, or a semi-rigid metal. 9. The orthodontic aligner of claim 6 , wherein the first segment, the second segment and the connector are portions of a single contiguous plastic body. 10. The orthodontic aligner of claim 6 , wherein the connector comprises a corrugated configuration that is to flex before applying a third force between the first plastic segment and the second plastic segment. 11. The orthodontic aligner of claim 6 , further comprising: one or more additional segments, each of the one or more additional segments having an additional shape that fits over an additional portion of the dental arch of the patient; and one or more additional connectors that join the one or more additional segments to at least one of the first plastic segment or the second plastic segment. 12. The orthodontic aligner of claim 6 , further comprising: a retention feature on the first plastic segment configured to receive an elastic band, wherein the elastic band is to apply one of a distal force or a mesial force to the first set of teeth without applying force to the second set of teeth of the patient. 13. The orthodontic aligner of claim 6 , wherein the first plastic segment comprises a first feature configured to retain a first end of the connector and the second plastic segment comprises a second feature configured to retain a second end of the connector. 14. A non-transitory computer readable storage medium having instructions that, when executed to by a processing device, cause the processing device to perform operations comprising: causing, by the processing device, formation of a first segment of a plastic orthodontic aligner for moving a first set of teeth of a patient and a second segment of the plastic orthodontic aligner, the causing of the formation comprising: receiving, by the processing device, a digital three-dimensional model of a dental arch of the patient; sending, by the processing device, first instructions to a rapid prototyping machine to cause the rapid prototyping machine to produce a physical mold of the dental arch based on the digital three-dimensional model; after the physical mold is formed, sending second instructions to a thermoforming or pressure forming machine to cause the thermoforming or pressure forming machine to create the plastic orthodontic aligner based on thermoforming or pressure forming a plastic sheet to the physical mold; and sending, by the processing device, third instructions to a cutting machine to cause the cutting machine to cut the plastic orthodontic aligner into at least the first segment and the second segment; and causing, by the processing device, joining of the first segment of the plast