Powered clearing-disks, control system, and method of use

The invention claimed is: 1. An agricultural row unit adapted to be moved in a forward direction over soil to clear agricultural residue, the agricultural row unit comprising: an attachment frame; a drive clearing-disk coupled to the attachment frame for rotation about a first axis; a driven clearing-disk coupled to the attachment frame for rotation about a second axis offset from the first axis; and a gear assembly drivingly coupled between the drive clearing-disk and the driven clearing-disk; wherein the drive clearing-disk is drivingly coupled to the driven clearing-disk via the gear assembly to rotate the driven clearing-disk about the second axis. 2. The agricultural row unit of claim 1 , further comprising a motor coupled to the drive clearing-disk and configured to rotate the drive clearing-disk about the first axis. 3. The agricultural row unit of claim 2 , further comprising a controller configured to adjust a speed of rotation of the motor in response to at least one of a speed of forward movement of the agricultural row unit over the soil, a height of the drive clearing-disk relative to a surface of the soil, a height of the driven clearing-disk relative to a surface of the soil, an amount of crop residue in an agricultural row, and a downforce pressure on a portion of the agricultural row unit. 4. The agricultural row unit of claim 1 , wherein: the drive clearing-disk extends radially outward away from the first axis to define an outer boundary of the drive clearing-disk, the outer boundary of the drive clearing-disk includes a lowermost point relative to a surface of the soil, the driven clearing-disk extends radially outward away from the second axis to define an outer boundary of the driven clearing-disk, the outer boundary of the driven clearing-disk includes a lowermost point relative to the surface of the soil, and the lowermost point of the driven clearing-disk is positioned above the lowermost point of the drive clearing-disk during operation of the agricultural row unit. 5. The agricultural row unit of claim 4 , wherein the lowermost point of the drive clearing-disk is positioned below the surface of the soil during operation of the agricultural row unit. 6. The agricultural row unit of claim 5 , wherein the lowermost point of the driven clearing-disk is positioned above the surface of the soil during operation of the agricultural row unit. 7. The agricultural row unit of claim 1 , wherein: the outer boundary of the drive clearing-disk includes a forward-most point relative to the forward direction of movement of the agricultural planter, the outer boundary of the driven clearing-disk includes a forward-most point relative to the forward direction of movement of the agricultural planter, and the forward-most point of the drive clearing-disk is positioned rearwardly of the forward-most point of the driven clearing-disk during operation of the agricultural planter. 8. The agricultural row unit of claim 7 , wherein the first axis and the second axis are not contained in the same plane. 9. The agricultural row unit of claim 1 , wherein when the drive clearing-disk rotates at a first speed the gear assembly is configured to rotate the driven clearing-disk at a second speed greater than the first speed. 10. The agricultural row unit of claim 1 , wherein the gear assembly includes a slip clutch reconfigurable between (i) a first mode in which the slip clutch is engaged with the drive clearing-disk and the driven clearing-disk and facilitates rotation of the driven clearing-disk, and (ii) a second mode in which a portion of the slip clutch is disengaged from the driven clearing-disk to allow the drive clearing-disk to rotate independently of the driven clearing-disk. 11. The agricultural row unit of claim 1 , wherein: the driven disk is movable relative to the attachment frame between (i) a first position in which a first disk-to-disk angle is defined by the intersection of first axis and the second axis and (ii) a second position in which a second disk-to-disk angle is defined by the intersection of first axis and the second axis, and the second disk-to-disk angle is different than the first disk-to-disk angle. 12. The agricultural row unit of claim 11 , wherein: the driven disk is movable relative to the attachment frame between (i) a third position in which a first disk-to-soil angle is defined between the second axis and a plane approximating the surface of the soil (ii) a fourth position in which a second disk-to-soil angle is defined between the second axis and the plane approximating the surface of the soil, and the second disk-to-soil angle is different than the first disk-to-soil angle. 13. The agricultural row unit of claim 12 , further comprising a controller coupled to the driven clearing-disk, and wherein the controller is configured to move the driven disk between the first and second positions and between the third and fourth positions. 14. A method of clearing agricultural residue from an agricultural row, comprising: moving an agricultural row unit over soil in a forward direction; operating a motor coupled to a drive clearing-disk at an operating speed to rotate the drive clearing-disk about a first axis and to rotate a driven clearing-disk about a second axis offset from the first axis; adjusting the operating speed of the motor in response to at least one of a speed of the agricultural row unit in the forward direction, a height of the drive clearing-disk relative to a surface of the soil, a height of the driven clearing-disk relative to the surface of the soil, an amount of crop residue in the row, and a downforce pressure on a portion of the agricultural row unit; wherein operating a motor coupled to a drive clearing-disk at an operating speed to rotate the drive clearing-disk about a first axis and to rotate a driven clearing-disk about a second axis offset from the first axis includes: engaging the drive clearing-disk with a gear assembly driven by the drive clearing-disk; and engaging the gear assembly with the driven clearing-disk to drive rotation of the driven clearing-disk about the second axis. 15. The method of claim 14 further comprising: rotating the drive clearing-disk at a first speed; and rotating the driven clearing-disk at a second speed greater than the first speed. 16. The method of claim 15 further comprising: adjusting a position of the second axis relative to a position of the first axis. 17. An agricultural row unit adapted to be moved in a forward direction over soil to clear agricultural residue, the agricultural row unit comprising: an attachment frame; a drive clearing-disk coupled to the attachment frame for rotation about a first axis; and a driven clearing-disk coupled to the attachment frame for rotation about a second axis offset from the first axis; wherein the drive clearing-disk is drivingly coupled via a gear assembly to the driven clearing-disk to rotate the driven clearing-disk about the second axis; wherein the driven disk is movable relative to the attachment frame between (i) a first position in which a first disk-to-disk angle is defined by the intersection of first axis and the second axis and (ii) a second position in which a second disk-to-disk angle is defined by the intersection of first axis and the second axis; wherein the driven disk is movable relative to the attachment frame between (i) a third position in which a first disk-to-soil angle is defined between the second axis and a plane approximating the surface of the soil (ii) a fourth positi