Cassini Resources Limited provided an update on exploration activities at the Yarawindah Brook Project. The Project is located on agricultural land 20km south of the township of New Norcia, 100km northeast of Perth, Western Australia. The Project is prospective for nickel, copper, cobalt and platinum group elements (primarily palladium and platinum) and is part of an emerging new nickel-copper-cobalt-PGE province that has been validated by Chalice Gold Mines recent high-grade discovery at the Julimar Project, approximately 40km south of Yarawindah. The first two drill holes of the diamond drilling program as outlined in the announcement of 13 May 2020, at the Ovis and Ovis Down-plunge Extension Prospects, have been completed,. A third hole, testing a new EM anomaly 1km along strike to the north of Ovis, is in progress. Visually encouraging zones of Ni and Cu sulphides have been intersected over a 10m zone in YAD0010 at Ovis comprising predominantly heavy disseminated to matrix-textured and locally massive stringer sulphides with visible pentlandite and chalcopyrite. Similar widths with disseminated sulphides have also been intersected in YAD0011, which tested a new electromagnetic (EM) plate, 250m down-plunge from Ovis. The hole has demonstrated the continuity of the Ovis system to the north, and provides an important down-hole EM platform to test for the presence of massive sulphide accumulations well below detection depths of surface EM. Since the previous update on 13 May 2020, the Company has received 200m-spaced infill soil results and partly completed surface EM survey results along the Brassica NW trend. The EM survey has defined a 90m x 65m, 1,500 siemens conductor at the XC06 anomaly. A coherent, NE-trending, coincident Pd-Pt and Ni-Cu-Co soil anomaly occurs immediately west of the EM conductor, in an area where the surface projection of the conductor would be expected, based on its modelled orientation. The Company views the coincidence of these two diagnostic properties, derived from completely independent methods, as highly encouraging for the identification of Ni-Cu-PGE sulphides. Importantly, the geochemical anomaly has a strike-length of over 600m.