Drill bit

What is claimed is: 1. A drill bit comprising: a shank having a rear end configured to be coupled to a rotary power tool; an intermediate shaft defining a longitudinal axis and having a rear end coupled to a front end of the shank and at least one spiral flute; and a cutting head having: a body having a rear end coupled to a front end of the intermediate shaft, a front end, and a peripheral sidewall; a primary cutting insert coupled to a front end of the body, the primary cutting insert having a cross-shape with a central portion, and first, second, third, and fourth cutting arms extending radially outward from the central portion; a pair of auxiliary cutting inserts coupled to the front end, each of the auxiliary cutting inserts spaced radially outward from the central portion and spaced circumferentially from each of the radial cutting arms, a first one of the auxiliary cutting inserts positioned between the first cutting arm and the second cutting arm and a second one of the auxiliary cutting inserts positioned between the third cutting arm and the fourth cutting arm; a pair of primary dust egress slots formed in the peripheral sidewall of the body and extending from the front end of the body to the rear end of the body, a first of the primary dust egress slots positioned between the second and third cutting arms, and a second of the primary dust egress slots positioned between the first and fourth cutting arms; and a pair of auxiliary dust egress slots formed in the peripheral sidewall of the body and extending from the front end of the body to the rear end of the body, a first of the auxiliary dust egress slots positioned between the first and second cutting arms, and a second of the auxiliary dust egress slots positioned between the third and fourth cutting arms. 2. The drill bit of claim 1 , wherein the primary cutting insert is configured to cut a hole in a workpiece, the auxiliary cutting inserts are configured to break up debris created by the primary cutting insert, and the primary and auxiliary dust egress slots are configured to enable removal of debris from the hole. 3. The drill bit of claim 1 , wherein the cutting arms are perpendicular to one another. 4. The drill bit of claim 1 , wherein the pair of auxiliary cutting inserts comprises only a single pair of auxiliary cutting inserts. 5. The drill bit of claim 1 , wherein each of the auxiliary cutting inserts extends radially outward beyond the peripheral sidewall and each of the cutting arms of the primary cutting insert extends radially outward beyond the auxiliary cutting inserts. 6. The drill bit of claim 1 , wherein each of the auxiliary cutting inserts has a rake face facing the rotational cutting direction, a relief face facing an opposite rotational direction, and a cutting edge joining the rake face and the relief face, each rake face comprising an upper rake face adjacent the cutting edge and a lower rake face adjacent the upper rake face, the upper rake face extending at a first angle to the longitudinal axis and the second rake face extending at a larger second angle to the longitudinal axis. 7. The drill bit of claim 6 , wherein the cutting edge of each of the auxiliary cutting inserts tapers from a first axial height at a radially inward portion to a second smaller axial height at a radial outward portion. 8. The drill bit of claim 1 , wherein the first auxiliary cutting insert is positioned approximately 50°-60° from the first cutting arm in the rotational cutting direction and the second auxiliary cutting insert is positioned approximately 50°-60° from the third cutting arm in the rotational cutting direction. 9. The drill bit of claim 1 , wherein the first auxiliary dust egress slot is positioned approximately 27°-37° from the first cutting arm in the rotational cutting direction and the second auxiliary dust egress slot is positioned approximately 27°-37° from the third cutting arm in the rotational cutting direction. 10. The drill bit of claim 1 , wherein the auxiliary cutting insets are offset axially rearward of the radial cutting arms of the primary cutting insert. 11. The drill bit of claim 1 , wherein the at least one spiral flute comprises a first spiral flute in communication with the first primary dust egress slot and the first auxiliary dust egress slot, and a second spiral flute in communication with the second primary dust egress slot and the second auxiliary dust egress slot. 12. A cutting head for a drill bit comprising: a body having a front end and a peripheral sidewall, and defining a longitudinal axis; a primary cutting insert coupled to a front end of the body, the primary cutting insert having a cross-shape with a central portion, and first, second, third, and fourth cutting arms extending radially outward from the central portion; a pair of auxiliary cutting inserts coupled to the front end, each of the auxiliary cutting inserts spaced radially outward from the central portion and spaced circumferentially from each of the radial cutting arms, a first one of the auxiliary cutting inserts positioned between the first cutting arm and the second cutting arm and a second one of the auxiliary cutting inserts positioned between the third cutting arm and the fourth cutting arm; a pair of primary dust egress slots formed in the peripheral sidewall of the body and extending from the front end of the body to the rear end of the body, a first of the primary dust egress slots positioned between the second and third cutting arms, and a second of the primary dust egress slots positioned between the first and fourth cutting arms; and a pair of auxiliary dust egress slots formed in the peripheral sidewall of the body and extending from the front end of the body to the rear end of the body, a first of the auxiliary dust egress slots positioned between the first and second cutting arms, and a second of the auxiliary dust egress slots positioned between the third and fourth cutting arms. 13. The cutting head of claim 12 , wherein the primary cutting insert is configured to cut a hole in a workpiece, the auxiliary cutting inserts are configured to break up debris created by the primary cutting insert, and the primary and auxiliary dust egress slots are configured to enable removal of debris from the hole. 14. The cutting head of claim 12 , wherein the cutting arms are perpendicular to one another. 15. The cutting head of claim 12 , wherein the pair of auxiliary cutting inserts comprises only a single pair of auxiliary cutting inserts. 16. The cutting head of claim 12 , wherein each of the auxiliary cutting inserts extends radially outward beyond the peripheral sidewall, and each of the cutting arms of the primary cutting insert extends radially outward beyond the auxiliary cutting inserts. 17. The cutting head of claim 12 , wherein each of the auxiliary cutting inserts has a rake face facing the rotational cutting direction, a relief face facing an opposite rotational direction, and a cutting edge joining the rake face and the relief face, each rake face including an upper rake face adjacent the cutting edge and a lower rake face adjacent the upper rake face, the upper rake face extending at a first angle to the longitudinal axis and the second rake face extending at a larger second angle to the longitudinal axis. 18. The cutting head of claim 12 , wherein the first auxiliary cutting insert is positioned approximately 50°-60° from the first cutting arm in the rotational cutting direction and the second auxiliary cutting insert is positioned approximately 50°-60° from the th