Copper North Mining Corp. announced progress of drilling on the Carmacks oxide Cu-Au-Ag project, Yukon, Canada. Approximately 4,000 metres have been drilled to date, in 32 holes, as part of an ongoing step-out and definition drill program. The drilling has mainly focused on two mineralized zones: Zone 2000S and Zone 13, last drilled in 2015. Oxide copper mineralization, native copper, and sulphide copper mineralization have been observed in drill cores from Zone 13 and Zone 2000S; assays are pending. The objective of this drill program was to upgrade Inferred oxide copper mineral resources into the Measured or Indicated resource category, and therefore the potential for a longer mine life. The drill results to date supports this potential mine life increase. Zone 13: Oxide copper mineralization was noted in all nine in-fill holes drilled within Zone 13 to date. This confirms the continuity and extent of oxide copper mineralization present within the existing Mineral Resource. The supergene copper minerals azurite, malachite, and tenorite transition to chalcopyrite-bornite mineralization having depths up to 100 metres below surface. Native copper has been observed at the transition from copper oxide to copper sulphide mineralization. Zone 2000S: Infill drilling has targeted the oxide zone in the southern half of Zone 2000S. The completion of seven drill holes has successfully confirmed the presence of visible malachite, azurite, and tenorite in the zone up to approximately 100 metres vertically from surface. The additional drilling has provided better constraints on the location of the oxide to sulphide interface, confirming the presence of copper oxide mineralization at depth. Wildcat Holes: Holes CN17-04 to CN17-11, CN17-16, and CN17-17 were drilled away from known mineral zones considered as wildcat holes. No significant mineralization was intersected in these drill holes. Engineering and Environmental Studies: As part of the Fall exploration program, groundwater and geotechnical field studies were completed in the proposed dry-stacked tailings area by Golder Associates. The field study results will support continued engineering design for the tailings area and updating of the site water balance and water quality models in support of future environmental assessment and permitting.