Electronic device antennas having multiple signal feed terminals

What is claimed is: 1. An electronic device comprising: a housing having peripheral conductive housing structures; an antenna ground; an antenna having an antenna resonating element arm formed from a segment of the peripheral conductive housing structures that is separated from the antenna ground by a dielectric-filled opening; radio-frequency transceiver circuitry in the housing; and a radio-frequency transmission line comprising a ground conductor and a signal conductor coupled to the radio-frequency transceiver circuitry, wherein the ground conductor is coupled to a first terminal on the antenna ground and the signal conductor is coupled to second and third terminals on the peripheral conductive housing structures. 2. The electronic device defined in claim 1 , further comprising: a dielectric-filled gap in the peripheral conductive housing structures that separates the antenna resonating element arm from an additional segment of the peripheral conductive housing structures, wherein the second terminal is coupled to the antenna resonating element arm and the third terminal is coupled to the additional segment of the peripheral conductive housing structures. 3. The electronic device defined in claim 2 , wherein a portion of the dielectric-filled opening extends between the additional segment of the peripheral conductive housing structures and the antenna ground. 4. The electronic device defined in claim 3 , wherein antenna resonating element arm is configured to convey radio-frequency signals in a first frequency band and the portion of the dielectric-filled opening is configured to convey radio-frequency signals in a second frequency band that is higher than the first frequency band. 5. The electronic device defined in claim 4 , wherein the signal conductor comprises a first branch coupled to the second terminal and a second branch coupled to the third terminal, the electronic device further comprising: a switch interposed on the second branch of the signal conductor. 6. The electronic device defined in claim 5 , wherein the switch has a first state at which an open circuit is formed between the first branch and the third terminal and a second state at which a short circuit path is formed between the first branch and the third terminal, the portion of the dielectric-filled opening being configured to convey the radio-frequency signals in the second frequency band when the switch is in the second state. 7. The electronic device defined in claim 6 , wherein the additional segment is configured to convey the radio-frequency signals in the second frequency band when the switch is in the first state, the antenna resonating element arm being configured to indirectly feed the additional segment of the peripheral conductive housing structures via near-field electromagnetic coupling when the switch is in the first state. 8. The electronic device defined in claim 7 , further comprising: an adjustable component coupled between the antenna resonating element arm and the antenna ground, wherein the adjustable component is configured to tune a frequency response of the antenna in the first frequency band. 9. The electronic device defined in claim 8 , further comprising: an additional dielectric-filled gap in the peripheral conductive housing structures; and an additional radio-frequency transmission line coupled to a fourth terminal on the antenna ground and a fifth terminal on the antenna resonating element arm, wherein the fifth terminal is interposed between the additional-dielectric filled gap in the peripheral conductive housing structures and the second terminal. 10. The electronic device defined in claim 9 , wherein the additional radio-frequency transmission line is configured to convey radio-frequency signals in a third frequency band that is lower than the first and second frequency bands, the antenna resonating element arm is configured to convey the radio-frequency signals in the third frequency band, and the electronic device further comprises: control circuitry configured to selectively activate a given one of the radio-frequency transmission line and the additional radio-frequency transmission line. 11. The electronic device defined in claim 10 , wherein the first frequency band comprises a first cellular telephone communications band between 1710 MHz and 2170 MHz, the second frequency band comprises a second cellular telephone communications band between 2300 MHz and 2700 MHz, and the third frequency band comprises a third cellular telephone communications band between 600 MHz and 960 MHz. 12. The electronic device defined in claim 10 , further comprising an additional antenna having an additional antenna resonating element arm that is separated from the segment of the peripheral conductive housing structures by the additional dielectric-filled gap, wherein the control circuitry is configured to control the antenna and the additional antenna to perform radio-frequency communications at the same frequency using a multiple-input and multiple-output (MIMO) scheme. 13. The electronic device defined in claim 4 , further comprising: an adjustable component coupled between the antenna resonating element arm and the antenna ground, wherein the adjustable component is configured to tune a frequency response of the antenna in the first frequency band. 14. An electronic device comprising: a housing having peripheral conductive structures; a dielectric-filled gap in the peripheral conductive structures that divides the peripheral conductive structures into first and second segments; an antenna ground; a first slot that separates the antenna ground from the first segment; a second slot that extends from an end of the first slot beyond an edge of the dielectric-filled gap in the peripheral conductive structures, wherein the second slot has edges defined by the antenna ground and the second segment of the peripheral conductive structures; and an antenna formed from the antenna ground, the first slot, the second slot, the first segment, and the second segment, wherein the antenna comprises an antenna feed having a ground antenna feed terminal coupled to the antenna ground, a first positive antenna feed terminal coupled to the first segment, and a second positive antenna feed terminal coupled to the second segment. 15. The electronic device defined in claim 14 , further comprising: radio-frequency transceiver circuitry; and a radio-frequency transmission line that has a signal conductor coupled between the antenna feed and the radio-frequency transceiver circuitry, wherein the signal conductor is coupled to the first positive antenna feed terminal over a first signal conductor branch and the signal conductor is coupled to the second positive antenna feed terminal over a second signal conductor branch. 16. The electronic device defined in claim 15 , wherein the second signal conductor branch and the second positive antenna feed terminal are configured to directly feed the second slot and the second slot is configured to radiate radio-frequency signals in a first frequency band. 17. The electronic device defined in claim 16 , further comprising: an additional dielectric-filled gap in the peripheral conductive structures that separates the first segment from a third segment of the peripheral conductive structures, wherein the first segment comprises a first portion extending between the first positive antenna feed terminal and the dielectric-filled gap and a second portion extending between the first positive antenna feed terminal and the additional dielectric filled gap,