Kingwest Resources provided the market with an update of exploration activities at the Emperor Project in the North East Goldfields region of Western Australia. The Emperor Project is a collection of exploration licences located at the southern end of the Yandal Greenstone Belt to the south and west of the Darlot Mine. GILMOUR PROSPECT: The Gilmour Prospect is located 10km SW of the Darlot Mine. The area has been identified by prospectors, with evidence of systematic metal detecting and nugget finds. No historic mine workings are present but three small prospecting pits have been located. The area contains outcropping quartz ± tourmaline veining in dolerite and gabbro. Previous rock chip sampling has returned multiple values >0.1ppm Au and up to 1.38ppm Au, associated with anomalous levels of pathfinder elements such as Ag, As, Cu, Pb, S, Sb, and Zn over a substantial 900m x 1400m area. Previous results were presented in the ASX releases of 12 November 2018 and 21 November 2018. New results for 32 additional samples are presented below. Further strong anomalism is present with values to 2.90 g/t Au, 145g/t Ag. Sample density is such that areas of gold anomalism are now apparent. The distribution of rock chip sampling is shown on the included figure. Open file aeromagnetic data over the Emperor Project leases has been merged and reprocessed. In the Gilmour Prospect area, a linear magnetic high is present which is interpreted as a magnetic, iron-rich dolerite. Such iron-rich dolerites are well known as favourable host rocks to gold mineralisation in the Eastern Goldfields region, and in the nearby Darlot Mine. Further the magnetics indicate that the magnetic dolerite has been broken up by a series of NW - SE trending shear zones that appear to act as pathways for mineralising fluids. EMPEROR STRUCTURE: Aircore drilling commenced on the Emperor Structure in late September 2018. 75 holes were completed for 5,410m. The drilling has 3 target styles: Mineralisation along the Emperor Structure analogous to the Endeavour Prospect; Fault intersections where north -south magnetic features intersect the Emperor Structure; Intersections where north -south magnetic highs intersect the Emperor Structure. These are interpreted as sites where favourable host rocks such as magnetic dolerites may intersect the Emperor Structure. Drilling intersected a well-developed residual ferricrete and calcrete horizon, up to 40m thick, overlying dolerite and minor sandstone. Ferricrete thickness and weathering increases to the south east. Multiple holes intersected evidence of shearing proving that the Emperor Structure is present as a shear zone of significant width. Quartz veining was intersected in association with this shearing. Assaying is complete, including 1m resamples of initial anomalous 3m composite samples previously reported in the ASX release of 12 November 2018. All holes have been rehabilitated. Summary intercepts are presented in the following table. These results along with known mineralisation to the north west, (namely the Endeavour, Mermaid and A1 Prospects), demonstrate that the Emperor Shear is a significant gold mineralised structure for more than 5km. Results include: 6m @ 0.67 g/t Au from 27m in hole EMAC004; 1m @ 1.06 g/t Au from 57m in hole EMAC015; 2m @ 1.09 g/t Au from 97m in hole EMAC041; 4m @ 0.80 g/t Au from 60m in hole EMAC050; 1m @ 1.18 g/t Au from 84m in hole EMAC050; 3m @ 0.55 g/t Au from 93m in hole EMAC068. Minor amounts of anomalous Cu were detected when logging and this is reflected in the result of 12m @0.15% Cu from 69m in hole EMAC032. Cover becomes thicker to the south east. Several holes in the south eastern part of the grid show development of laterite gold anomalism suggesting a primary source in this area. EMAC004, EMAC071 and EMAC074 show anomalism representing the continuation of the Endeavour Deposit from the adjacent licence, which is not held by Kingwest Resources. Magnetic interpretation shows that a further 9km of the Emperor shear is present within Kingwest tenements with minimal previous exploration.