Power cord with in-line power control functionality

What is claimed is: 1. A system, comprising: a plurality of network switches; a computing device that is connected to the plurality of network switches and is configured to monitor an operational state thereof; and a corresponding power cord connected between each one of the network switches and a corresponding power source, each power cord comprising: a first connector at a first end of the power cord, the first connector being configured to connect to the corresponding power source; a second connector at a second end of the power cord, the second connector being configured to connect to the corresponding network switch; a first conductive element that is connected to the first connector; a second conductive element that is connected to the second connector; a third conductive element that is connected to the first connector and the second connector; a switching element that is operable to connect the first conductive element to the second conductive element, thereby enabling a flow of electric current from the first connector to the second connector, and to disconnect the first conductive element from the second conductive element, thereby disabling the flow of electric current from the first connector to the second connector; and control logic that is configured to receive control signals from the computing device and, responsive to at least the control signals, control the switching element to either connect the first conductive element to the second conductive element or to disconnect the first conductive element from the second conductive element. 2. The system of claim 1 , wherein the first conductive element and the second conductive element collectively comprise a hot wire of the power cord and wherein the third conductive element comprises one of a neutral wire or a ground wire of the power cord. 3. The system of claim 1 , wherein the switching element comprises a relay. 4. The system of claim 1 , wherein the switching element is operable to simultaneously connect and simultaneously disconnect a plurality of hot wires, each of the plurality of hot wires operating at a distinct phase. 5. The system of claim 1 , wherein the control logic is further configured to selectively increase or attenuate an amount of electric current that is passed from the first conductive element to the second conductive element when the first conductive element is connected to the second conductive element by the switching element. 6. A system, comprising: a plurality of network switches; and a corresponding power cord connected between each one of the network switches and a corresponding power source, each power cord comprising: a first connector at a first end of the power cord, the first connector being configured to connect to the corresponding power source; a second connector at a second end of the power cord, the second connector being configured to connect to the corresponding network switch; a first conductive element that is connected to the first connector; a second conductive element that is connected to the second connector; a switching element that is operable to connect the first conductive element to the second conductive element, thereby enabling a flow of electrical current from the first connector to the second connector, and to disconnect the first conductive element from the second conductive element, thereby disabling the flow of electrical current from the first connector to the second connector; and control logic that is configured to determine a state of the corresponding network switch to which the power cord is connected and, based at least on the state of the corresponding network switch to which the power cord is connected, control the switching element to either connect the first conductive element to the second conductive element or to disconnect the first conductive element from the second conductive element. 7. The system of claim 6 , wherein the switching element comprises a relay. 8. The system of claim 6 , wherein the switching element is operable to simultaneously connect and simultaneously disconnect a plurality of hot wires, each of the plurality of hot wires operating at a distinct phase. 9. The system of claim 6 , wherein the control logic is further configured to selectively increase or attenuate an amount of electric current that is passed from the first conductive element to the second conductive element when the first conductive element is connected to the second conductive element by the switching element. 10. The system of claim 6 , wherein the power cord further comprises: an interface configured to receive signals from the corresponding network switch; wherein the control logic is configured to determine the state of the corresponding network switch based at least on the signals. 11. The system of claim 10 , wherein the interface is configured to receive the signals from the corresponding network switch via at least one of a wired communication medium and a wireless communication medium. 12. The system of claim 10 , wherein the interface is configured to receive the signals from the corresponding network switch via one or more conductive elements of the power cord. 13. The system of claim 10 , wherein the control logic is configured to determine that the corresponding network switch is in an impaired state based at least on a cessation of signals from the corresponding network switch and to disconnect the first conductive element from the second conductive element responsive to at least determining that the corresponding network switch is in the impaired state. 14. A power cord, comprising: a first connector at a first end of the power cord, the first connector being configured to connect to a multi-phase power source; a second connector at a second end of the power cord, the second connector being configured to connect to a power consumer; a first conductive element that is connected to the first connector; a second conductive element that is connected to the second connector; a third conductive element that is connected to the first connector; a fourth conductive element that is connected to the second connector; a switching element that is operable to connect the first conductive element to the second conductive element, thereby enabling a flow of electrical current from the first connector to the second connector to provide power at a first phase, to disconnect the first conductive element from the second conductive element, thereby disabling the flow of electrical current from the first connector to the second connector, to connect the third conductive element to the fourth conductive element, thereby enabling a flow of electrical current from the first connector to the second connector to provide power at a second phase that is different from the first phase, and to disconnect the third conductive element from the fourth conductive element, thereby disabling the flow of electrical current from the first connector to the second connector; and control logic that is configured to receive control signals, and based on at least the control signals, to control the switching element to connect the first conductive element to the second conductive element, disconnect the first conductive element from the second conductive element, connect the third conductive element to the fourth conductive element, or disconnect the third conductive element from the fourth conductive element. 15. The power cord of claim 14 , wherein the control logic is further configured to selectively increase or attenuate an amount of electric current that is passed from the first cond