Sealing tool for strap

What is claimed is: 1. A method for forming notches in overlapping portions of a strap to attach the overlapping portions of the strap to one another, the method comprising: while the overlapping portions of the strap are positioned in a strap path defined between first and second jaws of a handheld sealing tool, receiving an actuation of a switch of the sealing tool; and responsive to receiving the actuation of the switch, actuating a motor of the sealing tool that is operably coupled to a drive element of the sealing tool to: rotate the drive element about a drive element rotational axis ina first rotational direction to cause the first and second jaws to rotate from respective rest positions to respective notch-forming positions to form the notches in the overlapping portions of the strap, wherein the drive element rotational axis is spaced-apart from and extends parallel to the strap path; and after the notches are formed in the overlapping portions of the strap, continue to rotate the drive element about the drive element rotational axis in the first rotational direction to cause the first and second jaws to rotate back to their respective rest positions. 2. The method of claim 1 , wherein the sealing tool comprises a plate to which the first and second jaws are connected via first and second connectors, respectively, so the first and second jaws rotate relative to the plate between their respective rest positions and their respective notch-forming positions. 3. The method of claim 2 , wherein the motor comprises a drive shaft operably connected to the drive element, wherein the drive shaft is rotatable about a drive shaft rotational axis, wherein actuating the motor comprises powering the motor to cause the drive shaft to rotate about the drive shaft rotational axis, wherein the sealing tool comprises a first positioning linkage connected to the first jaw, a second positioning linkage connected to the second jaw, and a positioning linkage connector connected to the first and second positioning linkages, wherein the drive element is operably connected to the first and second jaws via the first and second positioning linkages and the positioning linkage connector such that the positioning linkage connector moves away from the drive element rotational axis and toward the strap path in a direction transverse to the drive element rotational axis as the first and second jaws rotate from their respective rest positions to their respective notch-forming positions and such that the positioning linkage connector moves toward the drive element rotational axis and away from the strap path as the first and second jaws rotate back to their respective rest positions. 4. The method of claim 3 , further comprising powering the motor via a battery removably received in a housing of the sealing tool. 5. The method of claim 3 , wherein the drive element is operably connected to the first and second jaws via the first and second positioning linkages and the positioning linkage connector such that the positioning linkage connector moves toward the one or more plates as the first and second jaws rotate from their respective rest positions to their respective notch-forming positions and such that the positioning linkage connector moves away from the one or more plates as the first and second jaws rotate back to their respective rest positions. 6. The method of claim 1 , further comprising actuating the motor to rotate the drive element no more than about 360 degrees from a starting position in the first rotational direction to cause the first and second jaws to rotate from their respective rest positions to their respective notch-forming positions and, afterwards, back to their respective rest positions. 7. The method of claim 6 , further comprising actuating the motor to rotate the drive element no less than about 180 degrees and no more than about 360 degrees from the starting position in the first rotational direction to cause the first and second jaws to rotate from their respective rest positions to their respective notch-forming positions and, afterwards, back to their respective rest positions. 8. The method of claim 1 , wherein the sealing tool comprises a plate to which the first and second jaws are connected via first and second connectors, respectively, so the first and second jaws rotate relative to the plate between their respective rest positions and their respective notch-forming positions, wherein movement of the first and second jaws from their respective rest positions to their respective notch-forming positions causes the jaws to force the overlapping portions of strap against the plate and then form the notches in the overlapping portions of strap. 9. The method of claim 8 , wherein the first jaw comprises a first pincer and the second jaw comprises a second pincer, wherein the first and second pincers are not in the strap path when the first and second jaws are in their respective rest positions and are in the strap path when the first and second jaws are in their respective notch-forming positions. 10. The method of claim 1 , wherein the drive element comprises a cam. 11. The method of claim 10 , wherein the first and second jaws are in an open configuration when in their respective first and second jaw rest positions and in a closed configuration when in their respective first and second jaw notch-forming positions, wherein the first jaw comprises a first pincer and the second jaw comprises a second pincer, wherein the first and second pincers are not in the strap path when the first and second jaws are in the open configuration and are in the strap path when the first and second jaws are in the closed configuration. 12. The method of claim 10 , further comprising actuating the motor to rotate the drive element no more than about 360 degrees from a starting position in the first rotational direction to cause the first and second jaws to rotate from the open configuration to the closed configuration and, afterwards, back to the closed configuration. 13. The method of claim 12 , further comprising actuating the motor to rotate the drive element no less than about 180 degrees and no more than about 360 degrees from the starting position in the first rotational direction to cause the first and second jaws to rotate from the open configuration to the closed configuration and, afterwards, back to the closed configuration. 14. The method of claim 13 , wherein the motor comprises a drive shaft operably connected to the drive element, wherein the drive shaft is rotatable about a drive shaft rotational axis, wherein actuating the motor comprises powering the motor to cause the drive shaft to rotate about the drive shaft rotational axis, wherein the sealing tool comprises a first positioning linkage connected to the first jaw, a second positioning linkage connected to the second jaw, and a positioning linkage connector connected to the first and second positioning linkages, wherein the drive element is operably connected to the first and second jaws via the first and second positioning linkages and the positioning linkage connector such that the positioning linkage connector moves away from the drive element rotational axis and toward the strap path in a direction transverse to the drive element rotational axis as the first and second jaws rotate from the open configuration to the closed configuration and such that the positioning linkage connector moves toward the drive element rotational axis and away from the strap path as the first and second jaws rotate back to the open configuration. 15. The method of claim 14 , further comprising power