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RUMBLE RESOURCES LIMITED Capital/Financing Update 2019

Nov 3, 2019

65736_rns_2019-11-03_5d2dbf1c-bc2b-479e-b628-6470b38de9ce.pdf

Capital/Financing Update

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4 th November 2019

Western Queen Gold Project Multiple High-Grade Gold Targets Identified Drilling to Commence Imminently

Exploration by Rumble

Cranes Prospect (2kms north of Western Queen Central Pit)

  • ➢ Lag geochemistry identified a high-grade gold soil anomaly peak value of 11.75 g/t Au - Core zone 150m by 100m (>500ppb Au contour)
  • ➢ Shallow reconnaissance air core drilling over the identified soil anomaly discovered high-grade gold mineralisation from surface including**:**
    • 14m @ 4.87 g/t Au from surface (composite sampling)
    • * Mineralisation is open over >200m strike and at depth

Desktop Study

Systematic review & re-interpretation of historic exploration, development & production data commenced and ongoing with aim to generate new high-grade drill targets & increase gold resources

Western Queen Central Deposit New High-Grade Extensions North & South

(Western Queen Central historic open pit production of 660,000t @ 8.9 g/t Au for 190,000oz with underground historic grade of 10.32 g/t Au)

  • Western Queen Central North Extension Newly identified historical high-grade gold intercepts include:
    • 7m @ 60.6 g/t Au from 70m
    • 6m @ 37.34 g/t Au from 50m
    • 11m @ 16.8 g/t Au from 51m
    • 11m @ 9.75 g g/t Au from 55m
  • Western Queen Central South Extension Newly identified historical high-grade gold intercepts include:
    • 2m @ 40.37 g/t Au from 4m
    • 3m @ 10.42 g/t Au from 1m
    • 11m @ 6.11 g/t Au from 52m
  • Four main drill target areas identified:
    • Western Queen Central – Multiple Targets
    • Main Shear Zone – Multiple Targets
    • Western Queen South
    • Cranes Prospect

Next Stages – Drilling to commence in early November

  • Air core drilling to commence to scope and extend the shallow high-grade gold mineralisation at the Cranes Prospect – imminent start in early November
  • RC drilling will commence following the air core drill program with the aim to:
    • Test the down plunge at Western Queen Central historic intersections include 6.3m @ 36.09 g/t Au from 305.7m & 11.8m @ 16.08 g/t Au from 340.4m high-grade gold is open down plunge
    • Test the newly identified North and South extensions outlined above at Western Queen Central – high-grade gold is open down plunge, up plunge, north and south along strike

Rumble Resources Ltd

Suite 9, 36 Ord Street, West Perth, WA 6005

T +61 8 6555 3980

F +61 8 6555 3981

rumbleresources.com.au

ASX RTR

Executives & Management

Mr Shane Sikora Managing Director

Mr Brett Keillor Technical Director

Mr Matthew Banks Non-executive Director

Mr Michael Smith Non-executive Director

Mr Steven Wood Company Secretary

Mr Mark Carder Exploration Manager

Rumble Resources Ltd (ASX: RTR) ("Rumble" or "the Company") is pleased to announce that is has been fast tracking the exploration and development of the Western Queen High-Grade Gold Project focussing on identifying and progressing all opportunities within the project.

Western Queen Gold Project Overview

The Western Queen High-Grade Gold Project lies 110km NW of Mt Magnet within the Yalgoo mineral field of Western Australia ("the Project"). The Project comprises of two contiguous mining leases (M59/45 and M59/208) for a total area of 9.8 km². The holder is Mt Magnet Gold Pty Ltd, an entity owned by Ramelius Resources (ASX: RMS). Rumble entered into an option to acquire 100% of the Project in August 2019 (see ASX announcement – 6 th August 2019 – Option to Acquire High-Grade Western Queen Gold Project).

Image 1 – Project Location with Neighbouring Gold Processing Facilities

The Western Queen High-Grade Gold Project is located within a 100km radius of three operating gold processing mills (see image 1). The closest mill is the Dalgaranga Mill (48km) which has a capacity of 2.5 Mtpa. The Checkers Mill (Mt Magnet) has a capacity of 1.9 Mtpa and the Tuckabianna Mill has a capacity of 1.2 Mtpa.

Two mined deposits at the Western Queen Gold Project have a combined historic production of 880,000t @ 7.6 g/t Au for 215,000oz. The Western Queen (Central) Mine produced 660,000t @ 8.9 g/t Au for 189,500oz and the Western Queen South Mine (from two stages) produced 220,000t @ 3.6 g/t Au for 25,500oz.

An updated mineral resource (Payne Geological Services Pty Ltd – Independent) completed in January 2018. Rumble has reviewed and verified the indicated and inferred resource (refer ASX announcement 6 August 2019), and estimates remaining resources beneath both mined deposits of 962,000t @ 3.9 g/t Au for 120,000oz. Of note the high-grade zone below the Western Queen Central Pit hosts inferred mineral resources of 130,000t at 9.0g/t Au for 38,000 ounces.

Exploration by Rumble (Image 2 & 3)

Cranes Prospect - (2km north of Western Queen Central Pit)

Rumble completed a small surface lag (soil) survey over the Cranes Prospect area to aid in confirming the position of strong gold in soil anomalism defined by historic exploration. A total of 81 lag samples were collected on a 50m by 50m grid and were assayed for gold and multi-elements. Highly anomalous gold in lag (soil) was delineated with a peak value of 11,750ppb Au (11.75 g/t Au). Seven (7) lag (soil) samples returned assays >500ppb Au. An area of 150m by 100m returned >500ppb Au.

Rumble subsequently completed a small shallow air core drill programme over the gold in lag (soil) anomalism with four lines on a 50m by 20m spacing. A total of 34 air core drill holes were completed for 1096m. Laterite (surface) gold mineralisation was delineated over northeast trending basement anomalism where over 200m of strike was defined (completely open). Basement geology comprised of mafic intrusives (gabbro to dolerite) with schistose ultramafics intruded by quartz porphyry and pegmatite.

Results from the air core drilling include:

  • 14m @ 4.87 g/t Au from surface CRAC015 (laterite and basement)
  • 4m @ 1.3 g/t Au from surface CRAC016 (laterite)
  • 20m @ 0.47 g/t Au from surface CRAC007 (laterite and basement)
  • 18m @ 0.35 g/t Au from surface CRAC006 (laterite and basement)

Image 2 – Cranes Prospect – Lag Geochemistry and Drill Hole Plan

Desktop Study – Review and Re-Interpretation

A major review (ongoing) and re-interpretation of historic data of the Western Queen deposits and surrounding exploration has highlighted four (4) areas/targets (see image 3) that potentially can add significant gold resources to the current resource base (962,000 t @ 3.9 g/t Au for 120,000 oz).

The review has confirmed the high-grade gold mineralisation is associated and controlled by a transgressive north to northeast trending shear zone cutting mafic and ultramafic lithologies. The mafic/ultramafic rocks are considered to be part of a large multiple staged differentiated mafic intrusive sill complex.

Recent air core drilling (by Rumble) at the Cranes Prospect has potentially defined the position of the prospective shear zone. Within the project area, the mineralised shear is over 5km in strike length. The re-interpretation of the shear highlights the lack of drilling between Cranes and Western Queen Central (see image 4 & 5), and south of the Western Queen South pit.

Image 3 – Location of High Order Area/Targets

Summary of High Order Target Areas (Image 3 and 4)

1. Western Queen Central

  • Down plunge of main high-grade shoot
  • Down plunge and up plunge of newly identified high-grade zones
  • North extension to pit 200m strike open to the north and at depth
  • South extension to pit 250m strike open to the south and at depth

2. Western Queen South

• Near pit extensions

3. Cranes Prospect

• Completely Open 200m strike – high-grade laterite and basement

4. Main Shear Zone

  • Between Western Queen Central and Cranes 2km strike
  • South of Western Queen South 1km strike
  • Central Zone between Western Queen Central & Western Queen South

1. Western Queen Central Main Deposit – Multiple Targets

The main shoot is completely open down plunge from the inferred underground resource of 130,000t at 9.0g/t Au for 38,000oz. Within the unmined inferred resource historic intercepts include:

  • 11.8m @ 16.08 g/t Au from 340.4m (WQD-1089)
  • 6.4m @ 36.09 g/t Au from 305.7m (WQD-1072)

Image 4 – Long Section highlighting Western Queen Central South, Central and North Extension – Multiple Targets

Western Queen Central High-Grade North Extension (image 3,4 & 5) Newly Identified

  • High-grade gold mineralisation associated with inferred faults occurs over a strike of 200m immediately north of the main Western Queen Central Pit. The mineralisation is open down plunge, up plunge and north along strike. Significant intercepts include:
    • 7m @ 60.6 g/t Au from 70m – (WQJC-32)
    • 6m @ 37.34 g/t Au from 50m – (QNC-10310-1)
    • 11m @ 16.8 g/t Au from 51m – (WQP-1055)
    • 11m @ 9.75 g/t Au from 55m – (WQP-1083)
    • 4m @ 6.57 g/t Au from 9m – (WQY-35)

Image 5 – Western Queen Central High-Grade North Extension highlighting drill Intercepts

Western Queen Central South Extension (Image 3 & 6) Newly Identified

  • South of the Western Queen Central pit, widespread shallow gold mineralisation has been defined over a
  • strike of 250m and is open to the south towards the Western Queen South pit/deposit and completely open down plunge. Very shallow or near surface intercepts include:
  • 2m @ 40.37 g/t Au from 4m (WQY-85)
  • 3m @ 10.42 g/t Au from 1m (WQY-123)
  • 3m @ 9.30 g/t Au from 3m (WQY-76)
  • 5m @ 3.15 g/t Au from 9m (WQD-2)
  • 9m @ 3.98 g/t Au from 1m (WQY-23)
  • 8m @ 2.98 g/t Au from 11m (WQY-93)
512400mE 512600mE6.9512800mE
6m @ 3.81 g/t Au from 18m )
8m @ 2.74 g/t Au from 14m
5m @ 3.2 g/t Au from 49m 6m @ 2.82 g/t Au from 28m590
-6965200mN11m @ 6.11 g/t Au from 52m 7m @ 2.00 g/t Au from 22m2m @ 40.37 g/t Au from 4m
7m @ 2.12 g/t Au from 32m 3m @ 10.42 g/t Au from 1m
13m @ 1.47 g/t Au from 23m 3m @ 9.30 g/t Au from 3m
6m @ 2.00 g/t Au from 4m EOH 5m @ 3.15 g/t Au from 9m
13m @ 1.33 g/t Au from 34m8m @ 2.98 g/t Au from 11m 6m @ 1.75 g/t Au from 23m
5m @ 2.56 g/t Au from 31m 9m @ 3.98 g/t Au from 1m11m @ 1.24 g/t Au from 9m
8m @ 1.54 g/t Au from 31m
6955000mN Surface Projection ofGold Mineralisation
8m @ 1.28 g/t Au from 16m
200m

Image 6 – Western Queen Central South Extension and Drill Intercepts

2. Western Queen South Pit/Deposit (Image 3) - Newly identified

  • Below and proximal to the pit, an inferred resource of 832,000t @ 3.1 g/t Au for 83,000oz is open at depth (down plunge). Significant intercepts within the resource and south of the pit includes:
    • 3m @ 66 g/t Au from 135m (QND-38975-1)
    • 5m @ 17.69 g/t Au from 83m (QNC-8900-1)

3. Cranes Prospect (Image 2 & 3) - Newly identified

  • As reported (page 3), over 200m of mineralised strike with laterite and basement mineralisation has been recently defined by Rumble (14m @ 4.87 g/t Au from surface). The mineralisation is completely open (along strike and at depth).
  • 4. Main Shear Zone - Newly identified

Between Western Queen Central and Cranes – 2km strike Potential (Image 3 & 7)

The position of the main Western Queen mineralised shear zone has been re-interpreted based on the recent air core drilling at the Cranes Prospect. The basement mineralisation corresponds with the sheared contact between mafic and ultramafic rocks. The new position clearly indicates previous exploration has focused to the east of the re-interpreted shear zone between Cranes and the Western Queen Central pit – see image 7. The highly prospective zone of interest has not been drill tested effectively over a strike of 2km.

South of Western Queen South – 1km strike Potential (Image 3 & 7)

The position of the main Western Queen mineralised shear zone has been re-interpreted. The basement mineralisation corresponds with the sheared contact between mafic and ultramafic rocks. The new position clearly indicates previous exploration has focused to south west of the reinterpreted shear south of the western queen south pit – see image 7 - The highly prospective zone of interest has not been drill tested effectively over a strike of 1km.

Image 7 – Highlights drilling over the reinterpretation of the mineralised shear zone – Not Drill Tested Effectively

Central Zone – Between Western Queen Central and Western Queen South (Image 3)

  • Between the Western Queen Central and Western Queen South historic pits, over 250m of highly prospective strike has been only tested by limited shallow drilling (see image 3). Significant wide widths of gold anomalism without historic follow drilling includes:
    • ➢ 24m @ 0.32 g/t Au from 16m to EOH (WQRB111)
    • ➢ 20m @ 0.34 g/t Au from 4m (WQRB105)
    • ➢ 34m @ 0.28 g/t Au from 16m to EOH (QNB-9400-4)

Next Stages – Drilling to Commence

  • Air-core drilling to commence imminently (early November) at the Cranes Prospect:
    • ➢ Testing along strike (northeast trending) potential to extend the current 200m strike.
    • ➢ Test below the recent high-grade surface zone define the basement mineralisation.
  • RC drilling will commence after air-core drilling completion:
    • Deep RC drilling targeting the down plunge position of the main shoot of the Western Queen Central pit.
    • Testing for extensions to the high-grade mineralisation north of the Western Queen Central historic pit.
    • Testing for extensions to the shallow mineralisation south of the Western Queen Central historic pit.

-ends-

Shane Sikora Managing Director

For further information visit rumbleresources.com.au or contact [email protected].

About Rumble Resources Ltd

Rumble Resources Ltd is an Australian based exploration company, officially admitted to the ASX on the 1st July 2011. Rumble was established with the aim of adding significant value to its current mineral exploration assets and will continue to look at mineral acquisition opportunities both in Australia and abroad.

Competent Persons Statement

The information in this report that relates to Exploration Results and Mineral Resources is based on information compiled by Mr Brett Keillor, who is a Member of the Australasian Institute of Mining & Metallurgy and the Australian Institute of Geoscientists. Mr Keillor is an employee of Rumble Resources Limited. Mr Keillor has sufficient experience relevant to the style of mineralisation and type of deposit under consideration and to the activity which he is undertaking to qualify as a Competent Person as defined in the 2012 Edition of the "Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves". Mr Keillor consents to the inclusion in the report of the matters based on his information in the form and context in which it appears.

Western Queen Gold Deposit
Mineral Resource Estimate (2.0g/t Au cut-off)
Deposit IndicatedInferredTotal
Tonnes Au Tonnes Au Tonnes Au Au
t g/t t g/t t g/t ounces
WQ South 243,000 3.5 590,000 2.9 832,000 3.1 83,000
WQ Central - - 130,000 9.0 130,000 9.0 38,000
Total 243,000 3.5 719,000 4.0 962,000 3.9 120,000

Table 1 – Western Queen Project Resource Estimate (table subject to rounding)

Rumble Pipeline of Projects - Multiple Avenues to Discovery

Executing Pipeline of Projects Strategy

Multiple near term catalysts for significant re-rating to end of December 2019

  • 1. Drill Conductors targeting massive Ni–Cu–Co-PGE-Au Deposits Panache Ni–Cu–Co-PGE–Au Project (Completed awaiting assays)
  • 2. Drill Down Plunge of High-Grade Au Western Queen Central Deposit Western Queen Au Project
  • 3. Drill Down Plunge Cu-Au Feeder Zone targeting High-Grade Cu-Au Munarra Gully Cu-Au-Co Project
  • 4. Follow up Drilling of High-Grade Co Discovery 10km Open & Untested Munarra Gully Cu-Au-Co Project
  • 5. JV Partner IGO Follow up Drilling of High-Grade Au Discovery Fraser Range Thunderstorm Ni-Cu-Au Project
  • 6. JV Partner AIC Mines Drill targeting Tier 1 Cu-Au Deposits Paterson Province Lamil Cu-Au Project
  • 7. Drill Targeting Sudbury "Offset Dyke" Massive Ni–Cu–PGM Deposits Long Lake Ni-Cu-PGM Project
  • 8. Drill Targeting (14 Targets) Epithermal to Porphyry Deposits
  • Braeside/Barramine Zn–Pb–Cu–Ag-Au–V Project. 9. Drill Targeting open-pittable flat lying sandstone hosted Zn-Pb Deposits Earaheedy Zn Project.

Image 9. Rumble Schedule of Exploration

Section 1 Sampling Techniques and Data

Criteria JORC Code explanation Commentary
Samplingtechniques •Nature and quality of sampling (e.g. cut channels, randomchips, or specific specialised industry standardmeasurement tools appropriate to the minerals underinvestigation, such as down hole gamma sondes, orhandheld XRF instruments, etc.). These examples shouldnot be taken as limiting the broad meaning of sampling.•Include reference to measures taken to ensure samplerepresentivity and the appropriate calibration of anymeasurement tools or systems used.•Aspects of the determination of mineralisation that areMaterial to the Public Report.•In cases where 'industry standard' work has been donethis would be relatively simple (e.g. 'reverse circulationdrilling was used to obtain 1 m samples from which 3 kgwas pulverised to produce a 30 g charge for fire assay').In other cases more explanation may be required, such aswhere there is coarse gold that has inherent samplingproblems. Unusual commodities or mineralisation types(e.g. submarine nodules) may warrant disclosure ofdetailed information. •Lag Sampling – Rumble-5mm+2mm sieved lag wascompleted on 50m by 50mspacing. Approximately 200g oflag was collected and assayed forAu and multi-elements.•Air Core Drilling – RumbleA total of 34 holes werecompleted with variable compositesampling – 2m and 4mcomposites. Samples collected byspear and assayed for Au only –Survey control was by handheldGPS – GDA94 grid
Drillingtechniques •Drill type (e.g. core, reverse circulation, open-holehammer, rotary air blast, auger, Bangka, sonic, etc.) anddetails (e.g. core diameter, triple or standard tube, depthof diamond tails, face-sampling bit or other type, whethercore is oriented and if so, by what method, etc.) •Air core drilling completedusing 100mm blade and facehammer if appropriate
Drillsamplerecovery •Method of recording and assessing core and chip samplerecoveries and results assessed.•Measures taken to maximise sample recovery and ensurerepresentative nature of the samples.•Whether a relationship exists between sample recoveryand grade and whether sample bias may have occurreddue to preferential loss/gain of fine/coarse material. •Drill cuttings laid on ground as1m intervals•Sample weight wasapproximately 1kg. Shallowholes and no water. Adequatesample size.
Logging •Whether core and chip samples have been geologicallyand geotechnically logged to a level of detail to supportappropriate Mineral Resource estimation, mining studiesand metallurgical studies.•Whether logging is qualitative or quantitative in nature.Core (or costean, channel, etc.) photography.•The total length and percentage of the relevantintersections logged. •Geological logging conductedfor each metre. All drill chipslogged
Subsamplingtechniquesandsamplepreparation •If core, whether cut or sawn and whether quarter, half orall core taken.•If non-core, whether riffled, tube sampled, rotary split, etc.and whether sampled wet or dry.•For all sample types, the nature, quality andappropriateness of the sample preparation technique.•Quality control procedures adopted for all sub-samplingstages to maximise representivity of samples.•Measures taken to ensure that the sampling isrepresentative of the in situ material collected, includingfor instance results for field duplicate/second-halfsampling.•Whether sample sizes are appropriate to the grain••size of the material being sampled. •Samples were recovered fromcyclone and not split. Spearsampling is indicative andfollow up single metresampling of anomalism hasbeen conducted.•Air core sampling isconsidered reconnaissanceexploration and is indicative ofthe likely grade.
Qualityofassay dataand •The nature, quality and appropriateness of the assayingand laboratory procedures used and whether thetechnique is considered partial or total. Assaying completed by ALSMalaga. For the lag sampling –assay methodology includes 25g

Criteria JORC Code explanation Commentary
laboratorytests •For geophysical tools, spectrometers, handheld XRFinstruments, etc., the parameters used in determining theanalysis including instrument make and model, readingtimes, calibrations factors applied and their derivation, etc.•Nature of quality control procedures adopted (e.g.standards, blanks, duplicates, external laboratory checks) AA (1ppb) Au and multi-elementassaying was 43 elements usingAR digest with MS and ICP-AESfinish. Standards, blanks andduplicates were used.
and whether acceptable levels of accuracy (i.e. lack ofbias) and precision have been established. For air core sampling, - gold onlyusing 30 gram charge Fire assaywith AA finish.
Verificationofsamplingandassaying •The verification of significant intersections by eitherindependent or alternative company personnel.•The use of twinned holes.•Documentation of primary data, data entry procedures,data verification, data storage (physical and electronic)protocols.•Discuss any adjustment to assay data. •All documentation and assaychecks by Rumble personnel•Reconnaissance air coredrilling – no twins•Data is digital subject tochecks and for air core drilling1m resampling of significantAu mineralisation
Location ofdata points •Accuracy and quality of surveys used to locate drill holes(collar and down-hole surveys), trenches, mine workingsand other locations used in Mineral Resource estimation.•Specification of the grid system used.•Quality and adequacy of topographic control. •Both lag sampling and air coredrilling controlled by handheldGPS.•GDA94 datum used
Dataspacing •Data spacing for reporting of Exploration Results. Data spacing is based onreconnaissance exploration
anddistribution •Whether the data spacing and distribution is sufficient toestablish the degree of geological and grade continuityappropriate for the Mineral Resource and Ore Reserve Composite sampling was used for
estimation procedure(s) and classifications applied.•Whether sample compositing has been applied. the air core drillingRefer Rumble announcement 6August 2019 for detail in respectof the Mineral Resource.
Orientationof data inrelationtogeologicalstructure •Whether the orientation of sampling achieves unbiasedsampling of possible structures and the extent to whichthis is known, considering the deposit type.•If the relationship between the drilling orientation and theorientation of key mineralised structures is considered tohave introduced a sampling bias, this should be assessed The air core drilling was angledandpositionedtoreflecttheinferred strike of mineralisation.The surface laterite mineralisationis considered flat and thereforethe intercept is not true width
and reported if material. Note composite have only beenreported. Resampling of individualmetres (ongoing) will determineapproximate true width.
Samplesecurity •The measures taken to ensure sample security. •Sampling security controlledby Rumble. Samples aremonitored and packaged tominimize inference.
Auditsorreviews •The results of any audits or reviews of samplingtechniques and data. •Rumble is conducting adetailed review of all historicdata (ongoing). Samplingtechniques are based onprevious work and geologicalassessment by Rumblegeologists

Section 2 Reporting of Exploration Results

Criteria JORC Code explanation Commentary
Mineraltenement andlandtenurestatus •Type, reference name/number, location andownership including agreements or materialissues with third parties such as joint ventures,partnerships, overriding royalties, native titleinterests, historical sites, wilderness or nationalpark and environmental settings.•The security of the tenure held at the time ofreporting along with any known impediments toobtaining a licence to operate in the area. •The Western Queen Projectcomprises of two mining leases -M59/45 and M59/208.•The licenses are currently owned byMt Magnet Gold Pty Ltd•The licenses are granted, in a state ofgood standing and have no knownimpediments.•Production royalties include $20/oz onexisting resources with $8/oz on newopen pit resources and $6/oz on newunderground resources.
Explorationdone by otherparties •Acknowledgment and appraisal of explorationby other parties. •Recent lag sampling and air coredrilling completed by Rumble•Historical exploration and miningcompleted by:oWestern Mining CompanyoYinnex NLoHill 50 NLoEquigold NLoMt Magnet Gold NL entityheld by▪Harmony▪Ramelius Resources
Geology •Deposit type, geological setting and style ofmineralisation. Deposit type is orogenic shear zone•hosted gold in Archaean greenstonesof the Yilgarn Block
DrillholeInformation •A summary of all information material to theunderstanding of the exploration resultsincluding a tabulation of the followinginformation for all Material drill holes:oeasting and northing of the drill hole collaroelevation or RL (Reduced Level – elevationabove sea level in metres) of the drill holecollarodip and azimuth of the holeodown hole length and interception depthohole length.•If the exclusion of this information is justified onthe basis that the information is not Materialand this exclusion does not detract from theunderstanding of the report, the CompetentPerson should clearly explain why this is thecase. •Table 1 to 3 presents recent work byRumbleHistoric Drilling database has•1604 drill-holes in databaseoExcludes grade control,dewatering and geotechholes•Drill hole collars are in MGA.Table 4 highlights select•intercepts from historic drillingwith collar co-ords based onGDA94 conversion.
Dataaggregationmethods •In reporting Exploration Results, weightingaveraging techniques, maximum and/orminimum grade truncations (e.g. cutting of highgrades) and cut-off grades are usually Materialand should be stated.•Where aggregate intercepts incorporate shortlengths of high grade results and longer lengthsof low grade results, the procedure used forsuch aggregation should be stated and sometypical examples of such aggregations shouldbe shown in detail.•The assumptions used for any reporting of •Significant intercepts reported in thisannouncement have been presentedas weighted averages.

Criteria JORC Code explanation Commentary
metal equivalent values should be clearlystated.
Relationshipbetweenmineralisationwidthsandinterceptlengths •These relationships are particularly important inthe reporting of Exploration Results.•If the geometry of the mineralisation withrespect to the drill hole angle is known, itsnature should be reported.•If it is not known and only the down hole lengthsare reported, there should be a clear statementto this effect (e.g. 'down hole length, true widthnot known'). •High grade intercepts presented inthis announcement are not true width.The drill hole angle is 50 - 60°(approximately normal) interceptingmineralization dipping 85° towards thedrill-hole. True width at 50° is 75% ofthe intercept width. True width at 60°is 60% of the intercept width.
Diagrams •Appropriate maps and sections (with scales) andtabulations of intercepts should be included forany significant discovery being reported These •Image 1 - Project Location withneighboring gold processing facilities
should include, but not be limited to a plan viewof drill hole collar locations and appropriate •Image 2 - Cranes Prospect – LagGeochemistry and Drill Hole Plan
sectional views. •Image 3 - Location of High OrderArea/Targets
•Image 4 - Long Section highlightingWestern Queen Central South,Central and North Extension –Multiple Targets
•Image 5 - Western Queen CentralHigh-Grade North Extensionhighlighting drill Intercepts
•Image 6 - Western Queen CentralSouth Extension and Drill Intercepts
•Image 7 - Highlights drilling over thereinterpretation of the mineralisedshear zone – Not Drill TestedEffectively
•Image 8 - Rumble location of Projects
•Image 9 - Rumble Schedule ofExploration
Balancedreporting •Where comprehensive reporting of allExploration Results is not practicable,representative reporting of both low and highgrades and/or widths should be practiced toavoid misleading reporting of Exploration •Table 1 – Lag Sampling – assayresults and location.
•Table 2 – Air Core Drilling – Locationof drill holes
Results. •Table 3 – Air Core Drilling AssayResults >0.1 g/t Au
•Table 4 – Historic Drill Hole Locationsand Significant Assays.
Othersubstantiveexplorationdata •Other exploration data, if meaningful andmaterial, should be reported including (but notlimited to): geological observations; geophysicalsurvey results; geochemical survey results; bulksamples – size and method of treatment;metallurgical test results; bulk density,groundwater, geotechnical and rockcharacteristics; potential deleterious orcontaminating substances. •Information used in thisannouncement includes reinterpretation of the Western QueenShear Zone – Airborne magnetics.
Further work •The nature and scale of planned further work(e.g. tests for lateral extensions or depth •Resampling of the recent air coredrilling (1m resplits)

CriteriaJORC Code explanation Commentary
extensions or large-scale step-out drilling).•Diagrams clearly highlighting the areas ofpossible extensions, including the maingeological interpretations and future drillingareas, provided this information is notcommercially sensitive. •Air core drilling at Cranes to test theinferred strike extension and depthpotential.•RC drilling to test the down plunge,north and south strike extension ofhigh-grade gold mineralisation atWestern Queen Central.

Table 1
Sampling Location and Results – Cranes Prospect (GDA94 Z50)
SAMPLE ID East MGA 94 North MGA 94 Au ppb Bi ppm Te ppm W ppm
CRS190001 514063 6957627 1 0.67 0.07 0.3
CRS190002 514013 6957627 1 0.7 0.08 0.26
CRS190003 513963 6957627 1 0.71 0.12 0.15
CRS190004 513913 6957627 2 0.71 0.11 0.27
CRS190005 513863 6957627 1 1.12 0.17 0.35
CRS190006 513813 6957627 2 1.63 0.16 0.45
CRS190007 513763 6957627 88 2.06 0.24 0.25
CRS190008 513713 6957627 24 0.75 0.12 0.15
CRS190009 513663 6957627 4 0.68 0.07 0.14
CRS190010 514063 6957677 3 0.38 0.05 0.15
CRS190011 514013 6957677 6 0.55 0.11 0.19
CRS190012 513963 6957677 2 0.53 0.1 0.11
CRS190013 513913 6957677 3 0.81 0.12 0.31
CRS190014 513863 6957677 2 1.05 0.13 0.31
CRS190015 513813 6957677 20 2.47 0.16 0.3
CRS190016 513763 6957677 141 3.27 0.66 0.45
CRS190017 513713 6957677 212 1.08 0.14 0.16
CRS190018 513663 6957677 5 0.83 0.07 0.17
CRS190019 514063 6957727 3 0.7 0.07 0.27
CRS190020 514013 6957727 5 0.4 0.06 0.12
CRS190021 513963 6957727 8 0.9 0.11 0.21
CRS190022 513913 6957727 8 0.96 0.09 0.21
CRS190023 513863 6957727 4 3.26 0.21 0.7
CRS190024 513813 6957727 436 5.07 0.68 0.31
CRS190025 513763 6957727 209 5.7 0.98 0.48
CRS190026 513713 6957727 17 0.93 0.12 0.17
CRS190027 513663 6957727 12 0.81 0.1 0.18
CRS190028 514063 6957777 4 1.02 0.13 0.64
CRS190029 514013 6957777 2 1 0.06 0.14
CRS190030 513963 6957777 12 0.65 0.08 0.22
CRS190031 513913 6957777 4 6.38 0.31 1.06
CRS190032 513863 6957777 29 2.24 0.15 0.19
CRS190033 513813 6957777 1350 20.9 3.52 0.29
CRS190034 513763 6957777 426 11.5 1.76 0.55
CRS190035 513713 6957777 7 0.84 0.11 0.17
CRS190036 513663 6957777 49 1.19 0.15 0.18
CRS190037 514063 6957827 17 0.96 0.08 1.95
CRS190038 514013 6957827 23 1.4 0.08 0.13
CRS190039 513963 6957827 6 0.32 0.04 0.08
CRS190040 513913 6957827 8 1.66 0.08 0.22
CRS190041 513863 6957827 518 2.69 0.35 0.08
CRS190042 513813 6957827 11750 36.2 6.14 0.34
CRS190043 513763 6957827 1120 18 2.54 0.52
CRS190044 513713 6957827 30 1.17 0.2 0.18
CRS190045 513663 6957827 297 2.3 0.38 0.23
CRS190046 514063 6957877 28 1 0.14 0.41
CRS190047 514013 6957877 8 0.58 0.07 0.64
CRS190048 513963 6957877 28 0.69 0.11 0.23
CRS190049 513913 6957877 15 1.66 0.12 0.45
CRS190050 513863 6957877 816 5.9 1.14 0.37
CRS190051 513813 6957877 307 5.38 0.27 0.29
CRS190052 513763 6957877 38 4.7 0.32 0.5
CRS190053 513713 6957877 52 3.05 0.52 0.35
CRS190054 513663 6957877 16 1.29 0.13 0.36
CRS190055 514063 6957927 5 0.67 0.06 0.32
4 0.57
CRS190056 514013 6957927 0.05 0.1
CRS190057
513963 6957927 14 2.41 0.19 0.42
CRS190058 513913 6957927 18 1.91 0.14 2.81
CRS190059 513863 6957927 41 2.97 0.04 0.25
CRS190060 513813 6957927 41 6.98 0.15 0.17
CRS190061 513763 6957927 35 4.04 0.2 0.27
CRS190062 513713 6957927 746 10.85 1.43 0.48
CRS190063 513663 6957927 1430 5.64 0.69 0.51
CRS190064 514063 6957977 4 0.5 0.04 0.25
CRS190065 514013 6957977 29 0.82 0.06 0.18
CRS190066 513963 6957977 31 1.91 0.25 0.24
CRS190067 513913 6957977 27 2.85 0.17 0.42
CRS190068 513863 6957977 13 5.99 0.08 0.29
CRS190069 513813 6957977 72 3.6 0.19 0.32
CRS190070 513763 6957977 291 3.56 0.24 0.27
CRS190071 513713 6957977 8 2.23 0.14 0.43
CRS190072 513663 6957977 8 2.01 0.18 0.18
CRS190073 514063 6958027 4 0.5 0.04 0.59
CRS190074 514013 6958027 2 0.54 0.03 0.47
CRS190075 513963 6958027 2 1.14 0.05 0.23
CRS190076 513913 6958027 18 3.42 0.24 0.18
CRS190077 513863 6958027 13 6.84 0.1 0.42
CRS190078 513813 6958027 32 6.37 0.22 0.62
CRS190079 513763 6958027 8 2.96 0.12 0.43
CRS190080 513713 6958027 3 2.42 0.11 0.81

Air Core Drill Hole Locations – Cranes Prospect

Hole ID E GDA94 N GDA94 Depth Azimuth (mag) Dip
CRAC001 513929 6957847 25 90 -60
CRAC002 513910 6957850 25 90 -60
CRAC003 513890 6957850 40 90 -60
CRAC004 513864 6957855 49 90 -60
CRAC005 513841 6957856 24 90 -60
CRAC006 513826 6957852 39 90 -60
CRAC007 513809 6957853 34 90 -60
CRAC008 513789 6957852 31 90 -60
CRAC009 513768 6957851 28 90 -60
CRAC010 513748 6957841 27 90 -60
CRAC011 513895 6957804 36 90 -60
CRAC012 513877 6957800 28 90 -60
CRAC013 513861 6957802 30 90 -60
CRAC014 513841 6957800 34 90 -60
CRAC015 513824 6957806 27 90 -60
CRAC016 513798 6957806 39 90 -60
CRAC017 513779 6957795 50 90 -60
CRAC018 513760 6957797 33 90 -60
CRAC019 513879 6957752 27 90 -60
CRAC020 513864 6957750 25 90 -60
CRAC021 513840 6957752 39 90 -60
CRAC022 513817 6957752 38 90 -60
CRAC023 513798 6957748 30 90 -60
CRAC024 513776 6957746 40 90 -60
CRAC025 513760 6957747 33 90 -60
CRAC026 513740 6957750 32 90 -60
CRAC027 513860 6957695 25 90 -60
CRAC028 513841 6957700 26 90 -60
CRAC029 513819 6957693 25 90 -60
CRAC030 513795 6957701 29 90 -60
CRAC031 513780 6957699 25 90 -60
CRAC032 513760 6957699 41 90 -60
CRAC033 513741 6957700 29 90 -60
CRAC034 513718 6957700 33 90 -60

GDA94 Z50

Table3
Air Core Drill Hole Intercepts > 0.1 g/t Au – Cranes Prospect
Hole_ID mFrom mTo Sample_Type Sample ID Au ppm
CRAC022 0 2 AC CAC00115 0.12
CRAC025 0 2 AC CAC00153 0.58
CRAC014 0 2 AC CAC00204 1.21
CRAC015 0 2 AC CAC00215 4.45
CRAC015 2 4 AC CAC00216 1.11
CRAC015 4 6 AC CAC00217 10.85
CRAC015 6 10 AC CAC00218 7.38
CRAC015 10 14 AC CAC00219 1.34
CRAC015 14 18 AC CAC00221 0.48
CRAC016 0 2 AC CAC00225 1.53
CRAC016 2 4 AC CAC00226 1.07
CRAC016 4 6 AC CAC00227 0.36
CRAC016 6 8 AC CAC00228 0.2
CRAC017 0 2 AC CAC00245 0.17
CRAC018 6 10 AC CAC00263 0.44
CRAC018 10 14 AC CAC00265 0.16
CRAC018 22 26 AC CAC00268 0.12
CRAC004 0 2 AC CAC00300 0.21
CRAC004 6 10 AC CAC00302 0.35
CRAC004 10 14 AC CAC00303 0.5
CRAC004 14 18 AC CAC00304 0.11
CRAC004 26 30 AC CAC00307 0.33
CRAC004 30 34 AC CAC00309 1.12
CRAC005 0 2 AC CAC00314 0.68
CRAC005 18 22 AC CAC00321 0.12
CRAC006 0 2 AC CAC00323 0.71
CRAC006 2 4 AC CAC00324 0.26
CRAC006 6 8 AC CAC00326 0.21
CRAC006 8 10 AC CAC00327 0.81
CRAC006 10 14 AC CAC00328 0.19
CRAC006 14 18 AC CAC00329 0.38
CRAC007 0 2 AC CAC00337 1
CRAC007 2 4 AC CAC00338 0.86
CRAC007 4 6 AC CAC00339 0.48
CRAC007 6 8 AC CAC00340 0.12
CRAC007 8 12 AC CAC00341 0.2
CRAC007 12 16 AC CAC00342 0.21
CRAC007 16 20 AC CAC00343 0.71
CRAC008 0 2 AC CAC00348 0.25
CRAC008 2 4 AC CAC00349 0.22
CRAC009 0 2 AC CAC00359 0.11

Table 4(1 of 2)
Historic Drill Hole Locations and Significant Assays.
Hole ID Type E (GDA94 Conversion) N (GDA94 Conversion) Depth (m) Azi Dip From (m) To (m) Au g/t
WQD-1089 Diamond 512724 6955488 356 127 -59 340.4 340.9 7.9
340.9 341.1 480
341.1 341.4 11.2
341.4 342 18.6
342 343 16.1
343 344 8.1
344 345 7.9
345 346 0.73
346 347 8.6
347 348 0.67
348 349 8.5
349 349.8 1.54
349.8 350.2 0.65
350.2 350.9 10.3
350.9 351.25 34
351.25 351.5 10
351.5 352.15 1.15
WQD-1072 Diamond 512738 6955489 316 126 -54 305.7 306.65 11.7
306.65 307.07 195
307.07 308 49
308 308.5 87
308.5 309.45 23
309.45 310 19.9
310 310.85 11.2
310.85 311.3 0.88
311.3 311.95 1.16
WQJC-32 RC 512921 6955871 99 52 -60 70 71 7.6
71 72 370
72 73 1.95
73 74 3.46
74 75 0.3
75 76 35
76 77 5.9
QNC-10310-1 RC 512929 6955901 78 52 -60 50 51 7.3
51 52 103.55
52 53 63.4
53 54 46.85
54 55 2.44
55 56 0.52
WQP-1055 RC 512990 6955891 80 232 -55 51 52 3.25
52 53 3.26
53 54 28.1
54 55 25.1
55 56 48.8
56 57 68.6
57 58 0.95
58 59 4.13
59 60 1.32
60 61 0.14
61 62 1.13
WQP-1083 RC 512951 6955971 75 58 -60 55 56 9
56 57 72
57 58 0.53
58 59 0.12
59 60 0.76
60 61 0.45
61 62 21
62 63 0.24
63 64 1.64
64 65 0.74
65 66 0.72
WQY-35 RC 512948 6955906 27 56 -60 9 10 12.8
10 11 10.3
11 12 2.25
12 13 0.95
WQY-85 RC 512948 6955906 27 56 -60 4 5 76.9
5 6 3.84
WQY-123 RC 512746 6955309 21 56 -60 1 2 24.4
2 3 5.27
3 4 1.58
WQY-76 RC 512742 6955310 40 56 -60 6 7 12.1
7 8 14.3
8 9 1.52
WQD-2 Diamond 512744 6955311 27 57 -60 9 10 8.7
10 11 0.04
11 12 3.01
12 13 0.03
13 14 3.98

Table 4 (2 of 2)

Hole ID Type E (GDA94 Conversion) N (GDA94 Conversion) Depth (m) Azi Dip From (m) To (m) Au g/t
WQY-23 RC 512722 6955276 33 56 -60 16 17 15
17 18 2.6
18 19 0.43
19 20 3.1
20 21 5
21 22 1.2
22 23 4.4
23 24 2.1
24 25 2
WQJC-2 RC 512706 6955311 100 52 -60 52 53 50
53 54 0.73
54 55 4.4
55 56 1.49
56 57 5.8
57 58 1.06
58 59 0.31
59 60 1.27
60 61 0.69
61 62 0.93
62 63 0.52
QNC-9810-4 RC 512789 6955397 28 52 -60 18 19 3.55
19 20 1.2
20 21 0.16
21 22 15.37
22 23 2
23 24 0.58
WQY-93 RC 512714 6955253 25 56 -60 11 12 7.67
12 13 0.51
13 14 2.3
14 15 5.17
15 16 3.51
16 17 2.2
17 18 0.35
18 19 2.09
QND-38975-1 Diamond 512368 6954653 193 90 -58 135 136 121.33
136 137 51.9
137 138 24.9
QNC-8900-1 RC 512318 6954491 160 54 -60 83 84 4.13
84 85 4.62
85 86 1.23
86 87 0.57
87 88 77.9
88 89 1.89
WQRB111 RAB 512588 6955012 40 52 -60 16 40 0.32
WQRB105 RAB 512601 6955049 33 52 -60 4 14 0.34
QNB-9400-4 RAB 512573 6954991 50 52 -60 16 50 0.28

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