Antenna with switchable inductor low-band tuning

What is claimed is: 1. An electronic device, comprising: control circuitry; an antenna having an antenna resonating element arm and an antenna ground configured to resonate in at least a first communications band and a second communications band that is higher in frequency than the first communications band, having an inductor, and having a switch, wherein the inductor and switch are coupled in series between antenna resonating element arm and the antenna ground, the inductor contacts the antenna resonating element, the switch is configured to switch between an open state and a closed state in response to control signals from the control circuitry, the antenna is configured to resonate in a lower frequency portion of the first communications band and at a frequency in the second communications band in response to placing the switch in the closed state, and the antenna is configured to resonate in a higher frequency portion of the first communications band and at the frequency in the second communications band in response to placing the switch in the open state; and a housing containing conductive structures that form the antenna ground for the antenna and having a peripheral conductive member that runs around at least some edges of the housing, wherein a segment of the peripheral conductive member forms the antenna resonating element arm for the antenna, the segment is separated from the antenna ground by first and second dielectric gaps, and the first and second dielectric gaps are formed on opposing external surfaces of the electronic device. 2. The electronic device defined in claim 1 wherein the antenna comprises an antenna feed branch coupled between the segment of the peripheral conductive member and the antenna ground. 3. The electronic device defined in claim 2 further comprising a cellular telephone transceiver coupled to the antenna at the antenna feed branch. 4. The electronic device defined in claim 3 further comprising a short circuit branch coupled between the segment of the peripheral conductive member and the antenna ground. 5. The electronic device defined in claim 4 wherein the antenna feed branch is interposed between the short circuit branch and the inductor and switch that are coupled in series. 6. The electronic device defined in claim 1 wherein the antenna resonating element arm has a longer portion that resonates in the first communications band and a shorter portion that resonates in the second communications band. 7. The electronic device defined in claim 1 , wherein the second communications band is centered at the frequency in the second communications band. 8. The electronic device defined in claim 7 , wherein the second communications band comprises a Long Term Evolution cellular telephone band extending from approximately 1710 MHz to 2200 MHz and the first communications band comprises a Long Term Evolution cellular telephone band extending from approximately 700 MHz to 960 MHz. 9. The electronic device defined in claim 8 , wherein the lower frequency portion of the first communications band extends from approximately 700 MHz to 820 MHz and wherein the higher frequency portion of the first communications band extends from approximately 820 MHz to 960 MHz. 10. The electronic device defined in claim 1 , further comprising third and fourth dielectric gaps in the peripheral conductive member, wherein the third dielectric gap is formed on a first of the opposing external surfaces of the electronic device and the fourth dielectric gap is formed on a second of the opposing external surfaces of the electronic device. 11. The electronic device defined in claim 10 , further comprising: an additional antenna having an additional antenna resonating element arm, wherein an additional segment of the peripheral conductive member forms the additional resonating element arm for the additional antenna, and the additional antenna is separated from the antenna ground by the third and fourth dielectric gaps. 12. The electronic device defined in claim 11 , wherein the segment of the peripheral conductive member forms a third external surface of the electronic device, the additional segment of the peripheral conductive member forms a fourth external surface of the electronic device, and the third and fourth external surfaces extend substantially perpendicular to the first and second opposing external surfaces of the electronic device. 13. An antenna, comprising: an antenna resonating element arm that comprises a segment of a peripheral conductive member of an electronic device housing; an antenna ground, wherein the segment of the peripheral conductive member is separated from the antenna ground by first and second dielectric gaps formed at opposing external surfaces of the electronic device housing; a series-connected inductor and switch coupled between the resonating element arm and the antenna ground, wherein the inductor is connected in series between the switch and the resonating element arm and contacts the resonating element arm; a short circuit branch coupled between the antenna resonating element arm and the antenna ground; an antenna feed coupled between the antenna resonating element arm and the antenna ground at a location along the antenna resonating element arm that is between the short circuit branch and the series-connected inductor and switch, wherein the antenna is configured to resonate in a lower frequency portion of a first communications band and at a frequency in a second communications band that is at higher frequencies than the first communications band in response to placing the switch in a closed state and the antenna is configured to resonate in a higher frequency portion of the first communications band and at the frequency in the second communications band in response to placing the switch in an open state; and an impedance matching circuit coupled in parallel with the antenna feed and in parallel with the series-connected inductor and switch, wherein a first terminal of the impedance matching circuit is coupled to the segment of the peripheral conductive member and a second terminal of the impedance matching circuit is coupled to the antenna ground. 14. The antenna defined in claim 13 wherein the antenna resonating element arm is configured to handle cellular telephone signals. 15. The electronic device defined in claim 14 wherein the antenna resonating element arm has a longer portion that resonates in the first communications band and a shorter portion that resonates in the second communications band. 16. The electronic device defined in claim 13 wherein the antenna resonating element arm has a longer portion that resonates in the first communications band and a shorter portion that resonates in the second communications band. 17. An antenna, comprising: an antenna resonating element arm that has a longer portion that resonates in a first communications band and a shorter portion that resonates in a second communications band that is associated with higher frequencies than the first communications band, wherein the antenna resonating element arm comprises a segment of a peripheral conductive member of a housing for an electronic device and the segment is located between first and second dielectric gaps in the peripheral conductive member, the first and second dielectric gaps being formed at opposing exterior surfaces of the electronic device; an antenna ground; a series-connected inductor and switch coupled between the resonating element arm and the antenna ground; a short circuit branch coupled between the antenna resonating ele