RUMBLE RESOURCES LIMITED — Capital/Financing Update 2020

Sep 23, 2020

24[th] Sept 2020

Drilling Commenced at Braeside Project in the Pilbara

Target Generation - Completion of 3 Years Systematic Exploration

Rumble Resources Ltd

• Regional Scale Porphyry to Epithermal System from surface

• Large-scale mineralised system over 60km in strike and 8km in width

• 45 Priority Cu-Au-Zn-Pb-Ag targets generated - all capable of discoveries

• Camp Scale Potential with 5 deposit types delineated

Drilling Commenced – High Priority Targets

Sugar Ramos Target – Copper-Gold

• Diamond drilling targeting Large Scale Cu-Au porphyry deposits

• Rumble reconnaissance RC drilling intercepted a wide zone of potassic, barium potassic, calcic alteration with elevated copper, gold and lead with intense zonal sericite and magnetite-actinolite mineralisation which may be indicative of a proximal fertile Cu-Au mineralised porphyry

Barker Well Target – Lead-Zinc-Silver

• RC & diamond drilling targeting High-Grade Pb-Zn-Ag Breccia Pipe deposits

• Large 800m zone of Pb-Zn-Ag - Open

• Multiple high-grade breccia/pipe targets with 38.8%, 32.7%, 30.2% Lead rock chips

Lightning Ridge Target – Lead-Silver

• RC drilling targeting High-Grade Pb-Ag epithermal deposits

• Over 220m of epithermal vein/artisanal Pb-Ag mine workings

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

• High-grade silver to 1108 g/t, Lead to 38.6% and indium to 515 g/t rock chips

Gossan East Target – Lead-Zinc-Copper

Mr Michael Smith Non-executive Director

• RC drilling targeting High-Grade Pb-Zn-Cu Breccia Pipe Deposits

• Over 450m of mineralised strike - Open

• High-Grade 34.96% Lead, 2.41% Zinc, 27.4 g/t Silver & 5.34% Copper rock chips

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Mr Steven Wood Company Secretary

Mr Mark Carder Exploration Manager

Image 1 – RC Drilling Commenced at Braeside Project

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Rumble Resources Ltd (ASX: RTR) (“Rumble” or “the Company”) is pleased to announce that a multiphase systematic exploration campaign has delineated 45 priority Cu-Au-Zn-Pb-Ag-V targets at the Braeside Project, located 129km east of Marble Bar in the East Pilbara Region of Western Australia. Furthermore, the target generation has highlighted the camp scale potential of the Braeside Project with five deposit types delineated that are all associated with a regional scale porphyry to epithermal system with over 60km of mineralised strike and up to 8km in width.

Rumble has now commenced a multi-rig drill programme which will consist of reverse circulation (RC) and diamond drilling (co-funded by EIS), testing a range of these high priority targets. RC drilling will focus on near surface targets, and the diamond drilling will focus on deeper targets, to which will also assist with a better geological understanding of the system.

Braeside Zn-Pb-Cu-Ag-Au-V Project, East Pilbara Western Australia

Rumble holds a significant holding in the Fortescue and Paterson Provinces of the East Pilbara Region, Western Australia with over 2968 Sq kilometres of highly prospective tenure known for its large-scale Tier 1 discoveries – see image 2.

The Braeside Project area comprises 673 km[2] , consisting of E45/2032 (RTR 70%), E45/4368 (RTR earning 70%), E45/4874 (RTR 100%) and E45/4873 (RTR 100%). The Warroo Project (100% RTR) is contiguous to east of the Braeside Project comprises of 970 km[2] and the Lamil JV project with AIC Mines (AIC can earn up to 65%) with an area of 1325 km[2] .

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Image 2 : Braeside Project Location over Province Geology (see Appendix 1)

2

Target Generation Completed - 3 Years of Systematic Exploration

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Rumble acquired the Braeside Project in April 2017. The project hosts many historic high-grade, base metal, smallscale mines including the high-grade Ragged Hills mine that produced high-grade lead, zinc and silver up until 1959. Prior to Rumble’s acquisition no systematic modern exploration had been completed at Braeside. The first phase of systematic exploration commenced in May 2017 and over a period of 3 years, and multiple phases of exploration Rumble has now generated forty-five (45) Cu-Au- Zn-Pb-Ag-priority targets, all capable of significant discoveries.

The 45 targets generated by Rumble are presented in images 3 to 6. Five deposit types have been inferred by Rumble and are explained in the section below titled Geological Mineral Deposits Types .

Priority Target Ranking

• 12 High Priority Targets - have been identified where confidence highest based on exploration work completed. These are “drill ready”.

• 14 Medium Priority Targets - have been identified where confidence is moderate based on exploration work completed which may be considered for further drill testing or target definition.

• 19 Low Priority targets have been identified where confidence is low based on exploration work and requires additional targeting prior to drilling.

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Image 3 - Braeside Project - Project Index Plan of Deposit Types, Target Priority set out in Plan A1, A2 and A3.

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Systematic Exploration/Studies Completed

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Geochemistry

• 3391 soil samples (wet analysis)

• 5055 pXRF in-situ soil analyses

• 243 stream sediment samples

• 798 grab (rock chip) samples

Geophysics and Remote Sensing

• Airborne VTEM survey

• Airborne magnetics survey

• High resolution RGB (topographic imagery) satellite data

• Moving loop TEM ground survey

• Regional spectral mapping (Worldview 3 satellite data)

RC Drilling

• 80 RC drill holes for a total of 7112m

• Reconnaissance RC drilling completed on seventeen (17) targets/prospects

Research studies

• 2 CSIRO studies (Spectral mineral mapping and alteration studies)

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Image 4 – Northern Braeside – Location and Status of Prospects – Plan A1

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• Central Braeside – Location and Status of Prospects – Plan A2

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Image 6 – Southern Braeside – Location and Status of Prospects – Plan A3

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Geological Mineral Deposit Types

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Exploration along with spectral mineral mapping and alteration studies (includes two CSIRO studies) has outlined at least five (5) Zn-Pb-Ag-Cu-V-Au styles of mineralisation at Braeside.

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Image 7 – Braeside Project – Braeside Geological/Alteration Model

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Porphyry Related Polymetallic Vein Deposits (image 7)

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A large-scale NNW trending mineralised fracture system extends over 60km at Braeside. The fracture system comprises of multiple open vein sets/zones with wide intense alteration haloes hosted in predominantly andesitic basalts with intercalated volcaniclastic sediments. Up to four (4) vein/zone styles have been recognised with polymetallic epithermal veins (higher deposition level) occurring in the eastern part of the fracture system ranging to deeper deposition levels to the west where large barium Kspar zones occur close to a major flat lying hiatus (Hamersley Formation/Fortescue Formation contact). Image 7 presents the porphyry related polymetallic vein deposit geological model. The dominant sulphides are galena and sphalerite with significant silver, copper and vanadium occurring at appropriate deposition levels. Low level gold develops preferably in the lower Ba Kspar zone along with elevated copper and rubidium.

In summary, the high-level mineralisation to the east is considered epithermal polymetallic style with elevated silver to 1108 g/t and indium to 515 g/t. The lower level mineralisation to the west is considered to lie in the upper carapace zone to an alkalic porphyry system with characteristic intense sericite alteration with zonal calcic alteration (actinolite) and magnetite. Gold to 1.45 g/t (grab) and 1m @ 0.96 g/t are associated with intense barium oxide Kspar (celsian-hyalophane) altered zones. Disseminated chalcopyrite occurs within the alteration zones.

Rumble considers the potential for porphyry related polymetallic deposits is high. Targets include:

• Multiple, structurally controlled high-grade Zn-Pb-Ag-Cu-V breccia pipes and epithermal veins.

• Cu +/- Au with Zn-Pb-Ag sheeted vein system related to the upper altered carapace zone to a deep alkalic porphyry.

Sediment Hosted Non-Sulphide Zn Deposits

Associated with the large-scale NNW trending fracture system are flat lying zones of low to medium grade Zn occurring as sauconite (Zn smectite). Sauconite occurs in fresh fine to medium grain volcanic siltstones and sandstones with grades up to 3% Zn. The sauconite is not considered a “later” secondary process and likely represents syngenetic mineralisation associated with the fracture system. Dating has shown the age of the Pb mineralisation (associated with Zn) is the same as the host andesitic basalts and volcaniclastics and the nearby fertile Koongaling Felsic Volcanics (thought to be the source of the metals). The sauconite potentially developed in the surface porous sediments in the early stages of diagenesis as mineralisation fronts pervaded from the mineralising fracture zones.

Rumble considers the potential for large flat lying non-sulphide Zn mineralisation zones (sauconite) is high, especially between multiple fracture systems where flow-through fluid convection with hydraulic/hydrostatic pressure may occur.

Shear Hosted Pb-Zn-Cu-V Zones (image 3 and 4 for locations)

In the northern portion of the Braeside Project, significant mineralisation associated with sheared felsic and andesitic rocks occur at the Camel Hump, Camel Hump South and Barramine Cu prospects (see image 3 and 4). High-grade Pb, Cu, and V occur with Ag and Zn within a NW trending shear zone (predominantly under cover) over a strike of 2km at the Camel Hump prospects. Grab sampling has returned:

• Cu to 8.62%, Pb to 31.9%, V2O5 to 1.2%, Ag to 137 g/t and Zn to 2.07%.

At the Barramine Cu prospect, workings (partly covered) occur over a NW trending strike of 1km with Cu to 28.2% and Ag to 101 g/t.

The style of mineralisation (epigenetic) is fault/shear-controlled zones – polymetallic orogenic shear zone type.

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Sediment Hosted Syngenetic Zn Sulphide Deposits

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Onlapping Hamersley Formation shales (Jeerinah Formation) immediately west of the andesitic basalts hosting the Braeside Base Metal Fracture System are strongly elevated with zinc, lead, silver and gold. The Jeerinah Formation is a very regionally extensive (with significant black shale) shale formation (up to 1800m thick) derived from a sulphate rich sea beginning around 2.63Ga. The underlying Fortescue Formation was formed between 2.78 – 2.63Ga. Within the Jeerinah Formation and immediately west of the main Hamersley Formation basal contact, bimodal volcanics (mafic and felsic – Barramine Volcanic Member -1km thick) occur within the Jeerinah Formation. The implication is a rift tectonic margin may have developed with potential for SEDEX and VMS style deposits.

Exploration by Rumble has highlighted significant Zn in soil anomalism (up to 1858ppm) and grab sampling has returned up to 1.83% Zn from shale with elevated gold to 0.21 g/t. Three prospect/targets are considered sediment hosted syngenetic Zn sulphide type (Bayonne Bleeder, Bonecrusher and No Dice Chicun – see images 3, 4 and 5 for locations). Rumble considers the main Hamersley/Fortescue Formation contact and the overlying shales with intercalated bimodal volcanics (later reactivated volcanism after the main Fortescue volcanic events) to be prospective for SEDEX and VMS base metal deposits.

Drilling Commenced

Rumble has commenced a multi-rig drill programme which will consist of reverse circulation (RC) and diamond drilling.

Rumble has received EIS co-funding funding approval ($150,000) for the diamond drilling program.

Rumble plans to drill a minimum of four high priority targets with the capability to drill further targets/metres.

1. Lightning Ridge Target – See Image 5

Over 220m of epithermal vein/artisanal Pb-Ag mine workings. Grab sampling returned up to:

• 1108 g/t Ag

• 38.6% Pb

• 515 g/t In

• 012% Bi

Reconnaissance RC drilling by Rumble completed 4 RC holes with intersections including:

• BRRC104 – 2m @ 11.92% Pb, 28 g/t Ag from 36m

• BRRC106 – 2m @ 10.12% Pb, 38.5 g/t Ag from 55m

RC drilling will target the 220m of workings for High-Grade Pb-Ag epithermal deposits

2. Gossan East Target – See Image 5

Over 450m of Pb-Zn-Cu mineralised strike. Previous reconnaissance RC drilling by Rumble intersected:

• BRRC095 – 8m @ 2.52% Pb +Zn from 34m

• • BRRC096 – 4m @ 3.58% Zn from 44m

Grab sampling returned up to:

• 34.96% Pb

• 2.41% Zn

• 27.4 g/t Ag

• 5.34% Cu

RC Drilling will target High-Grade Pb-Zn-Cu Breccia Pipe deposits

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3. Barker Well Target - See image 4 & 8

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Recent infill soil geochemistry (20m by 10m grid) and grab sampling has highlighted a series of potential highgrade Pb-Ag +/-Zn breccia pipe/shoots over a strike of 800m (completely open) at Barker Well. Soil sampling (in situ pXRF) returned up to 3.73% Pb. Multiple high-grade grab samples include:

• 38.8%, 32.7%, 30.2%, 29.9% and 14.6% Pb as galena.

• Mo to 2350 ppm

RC Drilling by Rumble (five reconnaissance holes completed along mineralised zone) returned significant Pb mineralisation including:

• BRRC113 - 4m @ 8.82% Pb from 47m

• BRRC114 - 2m @ 13.3% Pb, 0.62% Zn from 34m

• BRRC036 - 124m @ 0.2% Pb + Zn – from surface (entire hole) - returned a very wide zone of alteration with Pb and Zn mineralisation highlighting potential for scale

RC Drilling will target the high order Pb in soil anomalism with the primary target between BRRC113 and BRRC114 Targeting High-Grade Pb-Zn-Ag Breccia Pipe deposits

The diamond core tail will target below the main area of high-order soil anomalism and high-grade Pb in grab samples adjacent and below the wide zone of alteration with Pb and Zn mineralisation. Rumble has been awarded EIS co-funding to a deep diamond core tail drill-hole (depth to 700m).

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Image 8 – Barker Well Prospect – Soil Geochemistry and Drill Hole Results

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4. Sugar Ramos Target - See image 5 & 9

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Rumble reconnaissance RC Drill hole BRRC110 (see image 9) intercepted a broad zone of potassic, barium Kspar and calcic (actinolite) alteration with intense zonal sericite and magnetite along with elevated Cu as disseminated chalcopyrite and elevated Au and Pb which may be indicative of a proximal fertile Cu-Au mineralised porphyry.

Grab sampling above the drill intersection returned up to:

• 54.27% Pb

• 1.45 g/t Au (which is the highest gold value returned by Rumble at Braeside)

• 0.11% Cu

• 72 gt/ Ag

A single deep diamond core drill hole will test highly significant alteration and mineralisation defined by RC drill hole BRRC110 focussing some 300m below the current alteration and mineralisation zone where the inferred target is potential a large scale Cu-Au sheeted vein/stockwork associated with the upper carapace zone of an underlying alkalic porphyry targeting large scale Cu-Au porphyry deposits.

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Image 9 – Sugar Ramos Prospect – Alteration/Mineralisation Section

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Authorisation

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This announcement is authorised for release by Shane Sikora, Managing Director of the Company.

-Ends-

For further information visit rumbleresources.com.au or contact enquiries@rumbleresources.com.au.

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 is based on and fairly represents 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.

Appendix 1

Image 2 – for further detail please refer following ASX announcements:

• Winu – 28 July 2020 - https://www.asx.com.au/asxpdf/20200728/pdf/44kwplzvnm0rsr.pdf

• Telfer – 13 February 2020 - https://www.asx.com.au/asxpdf/20200213/pdf/44f1r9szbpcqw3.pdf

• Havieron– 10 September 2020 - https://www.asx.com.au/asxpdf/20200910/pdf/44mhhy10hczxfb.pdf

• • Nifty – 10 March 2020 - https://www.asx.com.au/asxpdf/20200310/pdf/44fwgwdxn020vv.pdf

Images 4 through 6 – refer previous Rumble ASX announcements:

• 22 August 2019 - https://www.asx.com.au/asxpdf/20190822/pdf/447qnbnsb2zqlm.pdf

• 17 December 2018 - https://www.asx.com.au/asxpdf/20181217/pdf/4418snyg834sc0.pdf

• 27 November 2018 - https://www.asx.com.au/asxpdf/20181127/pdf/440npsbj99f4jz.pdf

Rumble confirms that it is not aware of any new information or data that materially affects the information included in these previous Company announcements.

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Section 1 Sampling Techniques and Data	Section 1 Sampling Techniques and Data
Criteria	JORC Code explanation		Commentary
Sampling	• Nature and quality of sampling (e.g. cut channels,	•	Grab sampling consists of taking up
techniques	random chips, or specific specialised industry		to 2kg of material as random chips
	standard measurement tools appropriate to the	•	In-situ pXRF soil sampling utilises a
	minerals under investigation, such as down hole		portable Vanta XRF analyser.
	gamma sondes, or handheld XRF instruments, etc.).		Methodology involves moving
	These examples should not be taken as limiting the		approximately 2cm of topsoil to
	broad meaning of sampling.		expose a flat soil surface. The
	• Include reference to measures taken to ensure		analyser then reads the elemental
	sample representivity and the appropriate calibration		response which is recorded. All
	of any measurement tools or systems used.		sites are controlled by handheld
	• Aspects of the determination of mineralisation that		GPS. The procedure ensures that
	are Material to the Public Report.		all lag and rock fragments are
	• In cases where ‘industry standard’ work has been		removed and only the soil media is
	done this would be relatively simple (e.g. ‘reverse		tested. CRMs includes appropriate
	circulation drilling was used to obtain 1 m samples		base metal standards and also a
	from which 3 kg was pulverised to produce a 30 g		blank. The CRM sample is taken at
	charge for fire assay’). In other cases more		the end or start of sample grids, or
	explanation may be required, such as where there is		every 20 samples.
	coarse gold that has inherent sampling problems.
	Unusual commodities or mineralisation types (e.g.
	submarine nodules) may warrant disclosure of
	detailed information.
Drilling	• Drill type (e.g. core, reverse circulation, open-hole	•	No drilling completed
techniques	hammer, rotary air blast, auger, Bangka, sonic, etc.)
	and details (e.g. core diameter, triple or standard
	tube, depth of diamond tails, face-sampling bit or
	other type, whether core is oriented and if so, by what
	method, etc.)..
Drill sample	• Method of recording and assessing core and chip	•	No drilling completed
recovery	sample recoveries and results assessed.
	• Measures taken to maximise sample recovery and
	ensure representative nature of the samples.
	• Whether a relationship exists between sample
	recovery and grade and whether sample bias may
	have occurred due to preferential loss/gain of
	fine/coarse material.
Logging	• Whether core and chip samples have been	•	No drilling completed
	geologically and geotechnically logged to a level of
	detail to support appropriate Mineral Resource
	estimation, mining studies and metallurgical studies.
	• Whether logging is qualitative or quantitative in
	nature. Core (or costean, channel, etc.) photography.
	• The total length and percentage of the relevant
	_intersections logged. _
Sub-	• If core, whether cut or sawn and whether quarter, half	•	No drilling completed
sampling	or all core taken.
techniques	• If non-core, whether riffled, tube sampled, rotary split,
and sample	etc. and whether sampled wet or dry.
preparation	• For all sample types, the nature, quality and
	appropriateness of the sample preparation technique.
	• Quality control procedures adopted for all sub-
	sampling stages to maximise representivity of
	samples.
	• Measures taken to ensure that the sampling is
	representative of the in situ material collected,
	including for instance results for field
	duplicate/second-half sampling.
	• Whether sample sizes are appropriate to the grain
	size of the material being sampled.

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Criteria		JORC Code explanation			Commentary
Quality	of	• The nature, quality and appropriateness of the	•	Grab	samples are sent for multi-
assay data		assaying and laboratory procedures used and		element 4 acid digest at ALS and
and		whether the technique is considered partial or total.		Intertek Genalysis laboratories in
laboratory		• For geophysical tools, spectrometers, handheld XRF		Perth.
tests		instruments, etc., the parameters used in determining	•	In-situ	pXRF soil sampling uses both
		the analysis including instrument make and model,		XRF CRM standards and blanks.
		reading times, calibrations factors applied and their
		derivation, etc.
		• Nature of quality control procedures adopted (e.g.
		standards, blanks, duplicates, external laboratory
		checks) and whether acceptable levels of accuracy
		(i.e. lack of bias) and precision have been
		_established. _
Verification		• The verification of significant intersections by either	•	No drilling completed
of sampling		independent or alternative company personnel.
and		• The use of twinned holes.
assaying		• Documentation of primary data, data entry
		procedures, data verification, data storage (physical
		and electronic) protocols.
		• _Discuss any adjustment to assay data. _
Location	of	• Accuracy and quality of surveys used to locate drill	•	All grab and in-situ pXRF sampling
data points		holes (collar and down-hole surveys), trenches, mine		controlled by handheld GPS using
		workings and other locations used in Mineral		GDA94 Zone 51.
		Resource estimation.
		• Specification of the grid system used.
		• Quality and adequacy of topographic control.
Data		• Data spacing for reporting of Exploration Results.	•	No drilling completed
spacing and		• Whether the data spacing and distribution is sufficient
distribution		to establish the degree of geological and grade
		continuity appropriate for the Mineral Resource and
		Ore Reserve estimation procedure(s) and
		classifications applied.
		• _Whether sample compositing has been applied. _
Orientation		• Whether the orientation of sampling achieves	•	No drilling completed.
of data	in	unbiased sampling of possible structures and the
relation	to	extent to which this is known, considering the deposit
geological		type.
structure		• If the relationship between the drilling orientation and
		the orientation of key mineralised structures is
		considered to have introduced a sampling bias, this
		should be assessed and reported if material.
Sample		• The measures taken to ensure sample security.	•	Rumble’s contractors controlled
security				transport and delivery of samples.
Audits	or	• The results of any audits or reviews of sampling	•	Not applicable
reviews		techniques and data.

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Section 2 Reporting of Exploration Results	Section 2 Reporting of Exploration Results	Section 2 Reporting of Exploration Results	Section 2 Reporting of Exploration Results
Criteria		JORC Code explanation		Commentary
Mineral		•	Type, reference name/number, location and	•	The Braeside project comprises of
tenement and			ownership including agreements or material issues		Four (4) granted exploration licenses –
land	tenure		with third parties such as joint ventures,		E45/2032, E45/4368, E45/4873, and
status			partnerships, overriding royalties, native title		E45/4874 and two (2) exploration
			interests, historical sites, wilderness or national		license applications E45/5356 and
			park and environmental settings.		E45/5591.
		•	The security of the tenure held at the time of reporting along with any known impediments to obtaining a licence to operate in the area.		o	E45/2032 is currently owned by Maverick Exploration Pty Ltd. Rumble Resources has earnt
						70% of the tenement. The license
						is granted, in a state of good
						standing and has no known
						impediments to operate in the
						area.
					o	E45/4368 is currently owned by
						Great Sandy Pty Ltd and Rumble
						is earning 70%
					o	All other exploration (and
						applications) licenses are 100%
						Rumble
Exploration		•	Acknowledgment and appraisal of exploration by		•	Exploration solely completed by
done by	other		other parties.			Rumble Resources
parties
Geology		•	Deposit type, geological setting and style of mineralisation.		•	Braeside -Target is Zn, Pb, Cu, V and precious metals. Deposit type
						is conceptual. Porphyry related
						(including VHMS) polymetallic
						deposit type and disseminated
						sediment hosted type.
Drill	hole	•	A summary of all information material to the		•	No drilling completed
Information			understanding of the exploration results including a
			tabulation of the following information for all
			Material drill holes:
			o easting and northing of the drill hole collar
			o elevation or RL (Reduced Level – elevation
			above sea level in metres) of the drill hole collar
			o dip and azimuth of the hole
			o down hole length and interception depth
			o hole length.
		•	If the exclusion of this information is justified on the
			basis that the information is not Material and this
			exclusion does not detract from the understanding
			of the report, the Competent Person should clearly
			explain why this is the case.
Data		•	In reporting Exploration Results, weighting		•	No drilling completed
aggregation			averaging techniques, maximum and/or minimum
methods			grade truncations (e.g. cutting of high grades) and
			cut-off grades are usually Material and should be
			stated.
		•	Where aggregate intercepts incorporate short
			lengths of high-grade results and longer lengths of
			low-grade results, the procedure used for such
			aggregation should be stated and some typical
			examples of such aggregations should be shown in
			detail.
		•	The assumptions used for any reporting of metal
			_equivalent values should be clearly stated. _

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Criteria		JORC Code explanation	Commentary
Relationship		• These relationships are particularly important in the	•	No Drilling completed
between		reporting of Exploration Results.
mineralisation		• If the geometry of the mineralisation with respect to
widths	and	the drill hole angle is known, its nature should be
intercept		reported.
lengths		• If it is not known and only the down hole lengths
		are reported, there should be a clear statement to
		this effect (e.g. ‘down hole length, true width not
		known’).
Diagrams		• Appropriate maps and sections (with scales) and	•	Image 1 – RC Drilling Commenced
		tabulations of intercepts should be included for any		at Braeside Project
		significant discovery being reported These should include, but not be limited to a plan view of drill hole collar locations and appropriate sectional	•	Image 2 – Braeside Project Location over Province Geology
		views.	•	Image 3 - Braeside Project - Project
				Index Plan of Deposit Types and
				Target Priority
			•	Image 4 – Braeside Project –
				Northern Braeside - Location and
				Status of Prospects – Plan A1
			•	Image 5 - Braeside Project –
				Central Braeside - Location and
				Status of Prospects – Plan A2
			•	Image 6 - Braeside Project –
				Southern Braeside - Location and
				Status of Prospects – Plan A3
			•	Image 7 - Braeside Project –
				Braeside Geological/Alteration
				Model
			•	Image 8 - Braeside Project – Barker
				Well Prospect – Soil Geochemistry
				and Drill Hole Results
			•	Image 9 - Braeside Project – Sugar
				Ramos – Alteration/Mineralisation
				Section
Balanced		• Where comprehensive reporting of all Exploration	•	No drilling completed
reporting		Results is not practicable, representative reporting
		of both low and high grades and/or widths should
		be practiced to avoid misleading reporting of
		Exploration Results
Other		• Other exploration data, if meaningful and material,	•	Table 1 - Grab Sampling Results –
substantive		should be reported including (but not limited to):		2019 to 2020 (previously
exploration		geological observations; geophysical survey		unreported)
data		results; geochemical survey results; bulk samples –	•	Table 2 - In Situ pXRF Soil Sampling
		size and method of treatment; metallurgical test		– Example of Analyses
		results; bulk density, groundwater, geotechnical
		and rock characteristics; potential deleterious or
		_contaminating substances. _
Further work		• The nature and scale of planned further work (e.g.	•	Braeside Project
		tests for lateral extensions or depth extensions or	•	RC Drilling
		large-scale step-out drilling).	•	Diamond Drilling
		• Diagrams clearly highlighting the areas of possible
		extensions, including the main geological
		interpretations and future drilling areas, provided
		_this information is not commercially sensitive. _

15

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----- Start of picture text -----

Table 1
–
Grab Sampling Results 2019 to 2020 (previously unreported)
SampleID East North Ag g/t Ba ppm Cu ppm Cu % Mo ppm Pb ppm Pb% S ppm V2O5 ppm V2O5 % Zn ppm Zn %
BR461 294998 7676000 0.01 341 2 0.00 0.01 14 0.00 159 235.62 0.02 460 0.05
BR462 295004 7676003 0.01 647 139 0.01 3 45 0.00 68 257.04 0.03 107 0.01
BR463 292257 7675552 0.01 349 122 0.01 8 90 0.01 611 269.54 0.03 7283 0.73
BR464 292254 7675550 0.01 101 17 0.00 15 147 0.01 220 242.76 0.02 21603 2.16
BR465 292254 7675546 0.01 78 10 0.00 21 312 0.03 363 235.62 0.02 47584 4.76
BR466 292271 7675362 0.01 86 22 0.00 23 176 0.02 164 89.25 0.01 5390 0.54
BR467 292197 7675200 0.01 53 24 0.00 2 542 0.05 194 17.85 0.00 1639 0.16
BR468 292622 7675728 2.3 4117 102 0.01 0.01 2329 0.23 1683 33.92 0.00 272 0.03
BR469 292607 7675760 2.4 3031 54 0.01 0.01 1564 0.16 3070 8.93 0.00 87 0.01
BR470 292584 7675809 6.9 2143 310 0.03 6 1594 0.16 2164 478.38 0.05 189 0.02
BR471 292519 7675910 87.8 413 25 0.00 0.01 349498 34.95 44640 21.42 0.00 152 0.02
BR472 292490 7675870 0.01 5575 70 0.01 0.01 1552 0.16 563 317.73 0.03 14004 1.40
BR473 292492 7675868 4.2 3180 136 0.01 8 7433 0.74 1493 226.70 0.02 1288 0.13
BR474 292444 7676043 0.01 3887 220 0.02 3 1396 0.14 16780 69.62 0.01 51 0.01
BR475 292474 7675986 0.01 3721 274 0.03 7 1904 0.19 2174 564.06 0.06 1248 0.12
BR476 292092 7675046 0.01 1168 152 0.02 41 337 0.03 129 239.19 0.02 7780 0.78
BR477 296987 7674014 0.8 827 227 0.02 0.01 3897 0.39 82 651.53 0.07 422 0.04
BR478 297004 7674397 5.7 906 228 0.02 12 2021 0.20 552 171.36 0.02 332 0.03
BR479 297054 7674418 3.9 261 31 0.00 10 1688 0.17 703 171.36 0.02 942 0.09
BR480 297274 7674764 0.6 199 135 0.01 0.01 516 0.05 440 389.13 0.04 77 0.01
BR481 297258 7674922 0.01 113 73 0.01 0.01 396 0.04 100 107.10 0.01 102 0.01
BR482 298835 7671521 0.01 582 17 0.00 2 330 0.03 0.01 132.09 0.01 333 0.03
BR483 298792 7671593 27.7 23 6 0.00 0.01 194312 19.43 26342 7.14 0.00 45 0.00
BR484 298782 7671609 0.01 631 15 0.00 0.01 1612 0.16 283 233.84 0.02 3981 0.40
BR485 298745 7671658 0.01 971 5 0.00 21 278 0.03 94 124.95 0.01 589 0.06
BR486 298735 7671676 0.01 651 20 0.00 0.01 356 0.04 58 182.07 0.02 303 0.03
BR487 298717 7671707 0.01 688 0.01 0.00 3 1396 0.14 659 298.10 0.03 918 0.09
BR488 298696 7671812 0.01 141 43 0.00 6 2212 0.22 255 76.76 0.01 990 0.10
BR489 298699 7671792 0.01 505 52 0.01 3 58 0.01 0.01 308.81 0.03 3352 0.34
BR495 298678 7671081 6 318 55 0.01 0.01 93483 9.35 1841 189.21 0.02 83244 8.32
BR494 298680 7671069 1.1 332 20 0.00 35 27570 2.76 1450 228.48 0.02 12854 1.29
BR493 298683 7671063 2.7 495 261 0.03 0.01 34473 3.45 1845 199.92 0.02 42351 4.24
BR492 298690 7671041 1.1 668 570 0.06 4 11235 1.12 202 280.25 0.03 6948 0.69
BR491 298687 7671033 0.01 547 180 0.02 0.01 3846 0.38 103 287.39 0.03 17979 1.80
BR490 298687 7671046 0.01 504 246 0.02 0.01 12479 1.25 679 189.21 0.02 64539 6.45
BR496 298621 7670703 0.01 757 331 0.03 0.01 1818 0.18 346 265.97 0.03 1439 0.14
BR497 298629 7670376 7.7 744 209 0.02 12 60943 6.09 2674 710.43 0.07 264 0.03
BR498 298731 7669802 0.01 194 352 0.04 3 1697 0.17 71 117.81 0.01 1015 0.10
BR499 296952 7676023 0.01 1241 239 0.02 15 8791 0.88 287 240.98 0.02 615 0.06
BR500 296957 7676024 0.01 1844 228 0.02 9 13011 1.30 212 255.26 0.03 1757 0.18
BR501 296965 7676015 0.01 112 116 0.01 0.01 1470 0.15 97 139.23 0.01 573 0.06
BR502 296856 7676671 0.01 531 49 0.00 0.01 94 0.01 61 171.36 0.02 239 0.02
BR503 299116 7664157 0.01 933 8 0.00 10 1163 0.12 52 357.00 0.04 386 0.04
BR504 299410 7664036 0.01 778 7 0.00 0.01 1541 0.15 225 498.02 0.05 2314 0.23
BR505 299483 7663934 0.01 863 74 0.01 5 740 0.07 100 353.43 0.04 187 0.02
BR506 299763 7663375 41.2 103 793 0.08 3 313473 31.35 22854 8207.43 0.82 2762 0.28
BR507 300121 7662949 39.8 62 1676 0.17 13 482469 48.25 19847 67458.72 6.75 10459 1.05
BR508 300299 7662880 0.01 2197 381 0.04 0.01 2716 0.27 434 512.30 0.05 818 0.08
BR509 300307 7662874 1.2 156 1153 0.12 9 261509 26.15 245 8225.28 0.82 942 0.09
BR510 300993 7662528 2.1 777 410 0.04 5 9987 1.00 334 314.16 0.03 209 0.02
BR511 300976 7662535 1.1 511 93 0.01 9 16667 1.67 2801 224.91 0.02 145 0.01
BR512 300978 7662538 0.01 738 123 0.01 10 9921 0.99 1019 371.28 0.04 123 0.01
BR513 300949 7662560 0.01 465 326 0.03 4 23602 2.36 546 203.49 0.02 78 0.01
BR514 300938 7662572 1.6 480 115 0.01 8 11191 1.12 701 287.39 0.03 49 0.00
BR515 300921 7662582 0.01 977 772 0.08 0.01 5229 0.52 406 371.28 0.04 614 0.06
BR516 300907 7662587 0.9 1201 966 0.10 81 16104 1.61 480 405.20 0.04 178 0.02
BR517 300892 7662598 1.7 841 318 0.03 13 4584 0.46 771 174.93 0.02 16 0.00
BR518 300881 7662610 1.6 1176 2326 0.23 100 6468 0.65 534 337.37 0.03 2345 0.23
BR519 300836 7662640 2.4 468 679 0.07 130 7028 0.70 1516 215.99 0.02 13 0.00
BR520 300826 7662646 6.3 1081 140 0.01 3 6984 0.70 713 219.56 0.02 21 0.00
BR522 301101 7662866 5.8 319 215 0.02 7 1275 0.13 58931 144.59 0.01 16594 1.66
BR523 301101 7662861 2.2 98 1571 0.16 0.01 304 0.03 307 46.41 0.00 8577 0.86
BR524 301110 7662839 1.7 38 281 0.03 3 16173 1.62 851 94.61 0.01 10384 1.04
BR525 301108 7662835 0.01 364 185 0.02 4 5952 0.60 604 333.80 0.03 175 0.02
BR526 301112 7662829 2.1 83 216 0.02 4 14587 1.46 1261 74.97 0.01 14561 1.46
BR527 301115 7662826 0.01 293 38 0.00 3 4521 0.45 524 324.87 0.03 188 0.02
BR528 301454 7662612 4 27 1950 0.20 47 734 0.07 78 46.41 0.00 100 0.01
BR529 301550 7662563 7.8 82 3548 0.35 24 14587 1.46 786 87.47 0.01 321 0.03
BR530 300659 7662474 0.01 649 55 0.01 4 1027 0.10 69 191.00 0.02 1946 0.19
BR531 300680 7662534 0.01 425 28 0.00 4 224 0.02 0.01 182.07 0.02 332 0.03
BR532 299660 7657001 0.01 258 12 0.00 0.01 44 0.00 0.01 5.36 0.00 56 0.01
BR533 299686 7656905 0.01 496 25 0.00 0.01 23 0.00 0.01 3.57 0.00 106 0.01
BR534 299671 7656856 0.01 1786 42 0.00 0.01 35 0.00 96 364.14 0.04 159 0.02
BR535 299671 7656841 1.1 77 386 0.04 5 588 0.06 0.01 278.46 0.03 271 0.03
BR536 299651 7656745 0.01 226 29 0.00 0.01 14 0.00 0.01 80.33 0.01 134 0.01
BR537 299898 7656837 0.01 3544 97 0.01 0.01 2640 0.26 366 324.87 0.03 328 0.03
----- End of picture text -----

16

==> picture [497 x 777] intentionally omitted <==

----- Start of picture text -----

SampleID East North Ag g/t Ba ppm Cu ppm Cu % Mo ppm Pb ppm Pb% S ppm V2O5 ppm V2O5 % Zn ppm Zn %
BR538 299677 7656580 0.01 541 27 0.00 0.01 249 0.02 147 55.34 0.01 202 0.02
BR539 299702 7656573 0.01 1122 89 0.01 0.01 345 0.03 61 390.92 0.04 254 0.03
BR540 299730 7656433 0.5 1181 49 0.00 7 402 0.04 129 274.89 0.03 38 0.00
BR541 299719 7656428 3 4592 36 0.00 3 2198 0.22 395 430.19 0.04 79 0.01
BR542 299780 7656345 3.1 20912 121 0.01 5 1431 0.14 413 624.75 0.06 166 0.02
BR543 299819 7656337 1 9837 89 0.01 3 1082 0.11 741 526.58 0.05 456 0.05
BR544 299918 7656543 0.9 248 1525 0.15 37 51619 5.16 1014 1242.36 0.12 1195 0.12
BR545 299998 7656479 0.01 1539 162 0.02 0.01 184 0.02 74 444.47 0.04 546 0.05
BR546 300023 7656443 1.2 2173 62 0.01 0.01 1705 0.17 528 328.44 0.03 122 0.01
BR547 300051 7656293 0.6 2623 116 0.01 0.01 590 0.06 767 158.87 0.02 85 0.01
BR548 299419 7655878 0.01 311 4 0.00 0.01 48 0.00 0.01 10.71 0.00 115 0.01
BR549 299365 7655711 0.01 1953 190 0.02 0.01 9 0.00 254 310.59 0.03 92 0.01
BR550 299128 7655825 0.01 1323 35 0.00 3 276 0.03 70 249.90 0.02 195 0.02
BR551 299016 7655832 0.01 65533 50 0.01 4 640 0.06 1084 333.80 0.03 144 0.01
BR552 299090 7655799 0.6 5436 462 0.05 45 2122 0.21 0.01 869.30 0.09 910 0.09
BR553 298911 7656428 0.01 363 83 0.01 0.01 22 0.00 116 235.62 0.02 574 0.06
BR554 298853 7657225 0.01 1681 45 0.00 0.01 82 0.01 168 399.84 0.04 578 0.06
BR555 298906 7657352 0.01 760 32 0.00 0.01 323 0.03 220 290.96 0.03 58 0.01
BR556 297706 7657966 0.01 973 1161 0.12 0.01 31 0.00 670 772.91 0.08 649 0.06
BR557 299237 7655240 0.01 4475 28 0.00 0.01 39 0.00 271 390.92 0.04 28 0.00
BR558 299248 7655219 0.01 7022 57 0.01 2 803 0.08 1037 112.46 0.01 170 0.02
BR559 299141 7655458 0.01 54961 72 0.01 2 126 0.01 1659 173.15 0.02 23 0.00
BR560 299137 7655476 0.01 60528 32 0.00 0.01 86 0.01 1559 303.45 0.03 11 0.00
BR561 299120 7655493 0.01 61548 60 0.01 3 133 0.01 2103 248.12 0.02 17 0.00
BR562 299113 7655508 0.01 84725 48 0.00 0.01 431 0.04 2002 235.62 0.02 14 0.00
BR563 299750 7654518 0.01 2231 95 0.01 2 152 0.02 98 410.55 0.04 142 0.01
BR564 299752 7654506 0.01 1704 96 0.01 0.01 7355 0.74 447 412.34 0.04 75 0.01
BR565 299797 7654538 0.01 1611 93 0.01 6 1515 0.15 218 339.15 0.03 101 0.01
BR566 299647 7654241 0.9 45882 26 0.00 0.01 2240 0.22 750 353.43 0.04 22 0.00
BR567 299759 7654132 0.01 2259 7 0.00 0.01 429 0.04 59 431.97 0.04 15 0.00
BR568 300027 7654398 0.01 415 202 0.02 0.01 11 0.00 0.01 410.55 0.04 128 0.01
BR569 301558 7652692 1.3 354 909 0.09 0.01 75 0.01 123 192.78 0.02 747 0.07
BR570 301619 7652690 1 312 152 0.02 0.01 103 0.01 0.01 590.84 0.06 1430 0.14
BR572 301665 7652648 0.01 781 352 0.04 0.01 20 0.00 267 701.51 0.07 915 0.09
BR573 301330 7652570 0.7 219 938 0.09 0.01 17 0.00 567 233.84 0.02 302 0.03
BR574 301345 7652533 0.6 212 882 0.09 0.01 10 0.00 291 194.57 0.02 193 0.02
BR575 301333 7652524 0.01 826 699 0.07 0.01 9 0.00 539 271.32 0.03 236 0.02
BR576 301152 7652599 0.01 1781 522 0.05 0.01 10 0.00 174 230.27 0.02 38 0.00
BR577 301080 7652515 0.01 2354 200 0.02 0.01 0.01 0.00 179 239.19 0.02 619 0.06
BR578 301394 7652219 0.01 1493 78 0.01 0.01 27 0.00 244 124.95 0.01 158 0.02
BR579 301418 7652187 0.01 96 120 0.01 0.01 13 0.00 0.01 114.24 0.01 152 0.02
BR580 308859 7644410 0.01 1084 78 0.01 3 65 0.01 236 255.26 0.03 145 0.01
BR581 308852 7644384 0.01 901 30 0.00 0.01 9 0.00 870 342.72 0.03 245 0.02
BR582 309124 7643965 0.01 1794 86 0.01 4 17 0.00 199 339.15 0.03 294 0.03
BR584 309139 7644324 0.01 211 22 0.00 0.01 514 0.05 85 214.20 0.02 58 0.01
BR583 302401 7651885 0.01 363 216 0.02 0.01 10 0.00 358 755.06 0.08 149 0.01
BR585 302333 7651891 0.01 562 135 0.01 0.01 16 0.00 178 217.77 0.02 106 0.01
BR586 302413 7651974 0.01 657 66 0.01 0.01 151 0.02 1657 376.64 0.04 749 0.07
BR587 301273 7651861 0.01 4174 697 0.07 2 21 0.00 660 194.57 0.02 330 0.03
BR588 300051 7652934 0.01 861 73 0.01 48 138 0.01 244 299.88 0.03 358 0.04
BR589 304853 7649843 0.01 321 286 0.03 3 697 0.07 339 290.96 0.03 1994 0.20
BR590 304830 7649865 1.5 347 103 0.01 3 1804 0.18 1025 362.36 0.04 1705 0.17
BR591 304826 7649896 0.01 308 163 0.02 0.01 697 0.07 352 157.08 0.02 677 0.07
BR592 288825 7689125 101.1 137 65769 6.58 9 1067 0.11 960 376.64 0.04 164 0.02
BR593 288823 7689127 2.2 79 3006 0.30 9 4109 0.41 0.01 226.70 0.02 221 0.02
BR594 288984 7688732 0.01 180 31202 3.12 5 734 0.07 74 971.04 0.10 358 0.04
BR595 288985 7688732 1.2 538 20118 2.01 4 93 0.01 107 412.34 0.04 57 0.01
BR596 289154 7688358 3.3 410 281663 28.17 11 54 0.01 785 517.65 0.05 49 0.00
BR597 289157 7688357 3.3 467 106923 10.69 8 32 0.00 190 788.97 0.08 45 0.00
BR598 290340 7689416 1.5 336 4840 0.48 4 658 0.07 1540 351.65 0.04 86 0.01
BR599 290339 7689417 0.01 42 585 0.06 0.01 420 0.04 2896 196.35 0.02 284 0.03
BR600 290823 7686799 0.01 67 182 0.02 0.01 951 0.10 96 371.28 0.04 1733 0.17
BR601 290847 7686788 3.1 42 260 0.03 0.01 6253 0.63 266 315.95 0.03 6969 0.70
BR602 290951 7686741 0.01 162 117 0.01 0.01 347 0.03 933 360.57 0.04 2024 0.20
BR603 290706 7686928 0.01 93 65 0.01 0.01 168 0.02 0.01 362.36 0.04 286 0.03
BR604 290712 7687141 0.01 72 78 0.01 0.01 1354 0.14 180 55.34 0.01 1805 0.18
BR605 290729 7687120 0.01 177 225 0.02 0.01 1014 0.10 209 310.59 0.03 1823 0.18
BR606 290834 7687146 0.01 209 88 0.01 0.01 481 0.05 690 230.27 0.02 1785 0.18
BR607 308323 7639221 0.01 131 461 0.05 15 6692 0.67 70 230.27 0.02 380 0.04
BR608 308335 7639205 59.2 9 102 0.01 0.01 596859 59.69 82680 3.57 0.00 242 0.02
BR609 309610 7639976 0.01 714 306 0.03 0.01 3120 0.31 312 298.10 0.03 19814 1.98
BR610 309616 7639970 3.2 760 1040 0.10 4 34403 3.44 5228 214.20 0.02 27836 2.78
BR611 288776 7689298 0.6 39 52 0.01 5 486 0.05 286 112.46 0.01 1091 0.11
BR612 288778 7689262 0.01 479 65 0.01 2 708 0.07 194 160.65 0.02 854 0.09
BR613 290949 7687046 0.5 130 114 0.01 0.01 845 0.08 233 305.24 0.03 2786 0.28
BR614 290963 7687141 0.01 138 86 0.01 0.01 1207 0.12 288 381.99 0.04 4436 0.44
----- End of picture text -----

17

==> picture [494 x 757] intentionally omitted <==

----- Start of picture text -----

SampleID East North Ag g/t Ba ppm Cu ppm Cu % Mo ppm Pb ppm Pb% S ppm V2O5 ppm V2O5 % Zn ppm Zn %
BR615 291012 7686953 0.01 162 67 0.01 0.01 193 0.02 276 296.31 0.03 686 0.07
BR616 291610 7686007 1.4 562 834 0.08 4 525 0.05 0.01 974.61 0.10 5681 0.57
BR617 291609 7686006 0.01 98 163 0.02 0.01 89 0.01 58 98.18 0.01 513 0.05
BR618 291573 7686033 0.01 113 86 0.01 0.01 769 0.08 1668 139.23 0.01 3516 0.35
BR619 291387 7685621 0.01 447 73 0.01 0.01 1401 0.14 178 265.97 0.03 347 0.03
BR620 291302 7685400 0.01 290 354 0.04 0.01 30 0.00 260 367.71 0.04 1945 0.19
BR622 291271 7685327 0.01 489 243 0.02 0.01 22 0.00 221 49.98 0.00 375 0.04
BR623 297184 7674355 17.7 179 60 0.01 0.01 286668 28.67 36424 41.06 0.00 277 0.03
BR624 298357 7661300 0.6 2500 59 0.01 4 640 0.06 312 358.79 0.04 4347 0.43
BR625 298163 7661552 1.2 99 56 0.01 5 8765 0.88 1140 112.46 0.01 25373 2.54
BR626 298168 7661552 0.01 4795 53 0.01 34 236 0.02 178 283.82 0.03 11617 1.16
BR627 298135 7661667 32.7 40 1073 0.11 115 12482 1.25 579 26.78 0.00 1540 0.15
BR628 298117 7661691 5.8 96 3861 0.39 43 3303 0.33 437 32.13 0.00 5848 0.58
BR629 298232 7661073 1.8 137 491 0.05 9 605 0.06 68 310.59 0.03 6697 0.67
BR631 301108 7662846 1.2 238 313 0.03 5 6364 0.64 832 157.08 0.02 3527 0.35
BR632 301102 7662853 0.01 103 130 0.01 3 1405 0.14 81 199.92 0.02 576 0.06
BR633 300112 7662952 5.1 141 848 0.08 15 9653 0.97 23926 1288.77 0.13 944 0.09
BR634 300111 7662953 1.6 97 1938 0.19 10 163380 16.34 387 38654.18 3.87 3981 0.40
BR635 300111 7662952 1.1 741 16 0.00 6 3224 0.32 228 424.83 0.04 62 0.01
BR636 300111 7662952 1.5 1025 176 0.02 4 50927 5.09 76 4351.83 0.44 1196 0.12
BR637 300098 7662958 0.6 1016 85 0.01 4 4858 0.49 623 296.31 0.03 685 0.07
BR638 300089 7662961 71.1 83 27 0.00 3 405671 40.57 46748 126.74 0.01 43 0.00
BR639 300040 7662972 13.6 137 7397 0.74 42 143222 14.32 961 21605.64 2.16 1340 0.13
BR640 300021 7662973 13 152 1338 0.13 9 167096 16.71 1934 46176.17 4.62 2087 0.21
BR641 300016 7662974 13.3 256 188 0.02 4 46837 4.68 681 14778.02 1.48 736 0.07
BR642 300002 7662977 26.7 228 4050 0.41 14 41272 4.13 905 2598.96 0.26 16584 1.66
BR643 299992 7662984 4.8 76 22 0.00 0.01 312963 31.30 384 66169.95 6.62 400 0.04
BR644 299962 7662993 0.8 1259 271 0.03 16 13392 1.34 123 367.71 0.04 6613 0.66
BR645 300130 7662949 22.2 379 117 0.01 6 256224 25.62 367 24852.56 2.49 621 0.06
BR646 300154 7662941 16.8 142 27 0.00 3 296839 29.68 1705 28211.93 2.82 288 0.03
BR647 300172 7662931 7.2 118 567 0.06 10 166418 16.64 799 34418.37 3.44 2691 0.27
BR648 300317 7662871 3.2 174 448 0.04 6 272574 27.26 179 25152.44 2.52 293 0.03
BR649 299754 7663382 17 70 1401 0.14 15 96762 9.68 7431 5976.18 0.60 99465 9.95
BR650 299902 7663391 0.01 1212 69 0.01 8 7880 0.79 290 929.99 0.09 176 0.02
BR651 299802 7663047 30.9 244 122 0.01 14 120247 12.02 6023 226.70 0.02 3515 0.35
BR652 299339 7663174 24.9 92 7363 0.74 13 156886 15.69 24514 248.12 0.02 16125 1.61
BR653 301454 7662032 68.8 117 18968 1.90 112 10000 1.00 80177 24.99 0.00 131 0.01
BR661 296192.5 7663350.8 0.5 579 5.9 0.00 44.9 1840 0.18 0.04 70.69 0.01 43 0.00
BR662 296254.7 7663343.4 0.3 1270 12.1 0.00 7.4 8560 0.86 0.04 93.89 0.01 93 0.01
BR663 295963.5 7663331.8 1.7 2810 28.3 0.00 2.7 7360 0.74 0.03 1479.77 0.15 37 0.00
BR664 295469 7663250.9 34.6 6800 35.8 0.00 2.4 17450 1.75 0.04 44.98 0.00 26 0.00
BR665 295248.2 7663368.1 14.5 1150 75.4 0.01 3.7 5710 0.57 0.08 27.67 0.00 223 0.02
BR666 296946.4 7665731.2 0.3 391 58.4 0.01 1.5 6170 0.62 0.05 56.58 0.01 10 0.00
BR667 297059.3 7665396.4 0.5 338 533 0.05 1.2 9240 0.92 0.19 73.36 0.01 41 0.00
BR668 297051.2 7665403.2 0.3 785 471 0.05 0.5 3240 0.32 0.03 166.36 0.02 136 0.01
BR669 301521.9 7658475.6 0.2 252 40 0.00 0.9 375 0.04 0.02 149.76 0.01 2700 0.27
BR670 301523.2 7658466.2 0.2 345 282 0.03 1.3 338 0.03 0.02 235.62 0.02 29900 2.99
BR671 301521.9 7658443.1 0.1 623 89.3 0.01 1.3 63.8 0.01 0.02 230.27 0.02 14700 1.47
BR672 301521.4 7658428.6 0.1 1010 196.5 0.02 1.4 33.3 0.00 0.04 173.32 0.02 19700 1.97
BR673 301518.1 7658405.4 0.1 856 280 0.03 1.5 74.4 0.01 0.05 202.60 0.02 18300 1.83
BR674 301521.9 7658391.3 0.1 1200 116 0.01 1.6 220 0.02 0.05 230.27 0.02 18950 1.90
BR675 301520 7658509.6 0.1 1180 208 0.02 1.6 556 0.06 0.04 182.07 0.02 31300 3.13
BR676 301521.1 7658559.3 0.1 822 124.5 0.01 1.5 37.4 0.00 0.05 201.71 0.02 24800 2.48
BR677 301523.8 7658585.8 0.1 404 179.5 0.02 1.7 141.5 0.01 0.03 231.16 0.02 24500 2.45
BR678 297035.4 7665506.4 3 60 312 0.03 2.1 47100 4.71 0.54 128.16 0.01 694 0.07
BR679 297262.3 7675394.5 0.4 118 45.5 0.00 4.7 4200 0.42 0.04 257.04 0.03 649 0.06
BR680 297245.1 7675398.6 0.3 153 17 0.00 4.1 3080 0.31 0.02 280.25 0.03 526 0.05
BR681 297299.8 7675447.3 0.1 90 66.4 0.01 1.1 328 0.03 0.04 283.82 0.03 190 0.02
BR682 297292.8 7675474.4 0.2 131 19.5 0.00 0.7 1115 0.11 0.06 232.05 0.02 856 0.09
BR683 297217.2 7675507.9 4.9 138 13.8 0.00 2.7 66500 6.65 0.2 95.50 0.01 98 0.01
BR684 297229.5 7675351.4 0.7 95 69.5 0.01 4.2 5250 0.53 0.05 120.84 0.01 867 0.09
BR685 297270.6 7675183.6 4.5 87 70.5 0.01 2.8 45300 4.53 0.44 27.13 0.00 396 0.04
BR686 297275.9 7675114.2 0.2 77 112 0.01 1.3 624 0.06 0.01 215.09 0.02 777 0.08
BR687 297106 7675249.1 0.2 343 173.5 0.02 1.4 1090 0.11 0.02 589.05 0.06 1455 0.15
BR688 297343.4 7674858.4 25 7 117.5 0.01 207 388000 38.80 4.75 40.52 0.00 7660 0.77
BR689 297344.4 7674875.8 1 140 46.1 0.00 30.2 16450 1.65 0.08 537.29 0.05 542 0.05
BR690 297330.8 7674879.1 44 27 89.5 0.01 2350 302000 30.20 1.24 34.81 0.00 953 0.10
BR691 297340.2 7674889.1 29.1 9 357 0.04 475 327000 32.70 5.16 39.98 0.00 1090 0.11
BR692 297335.6 7674904.5 29.8 11 194 0.02 204 299000 29.90 3.64 22.13 0.00 4290 0.43
BR693 297325.5 7674939.2 2.5 314 28.9 0.00 44.7 29200 2.92 0.18 209.74 0.02 270 0.03
BR694 297316.2 7674939.4 14.1 54 217 0.02 20.6 146000 14.60 0.51 56.58 0.01 1530 0.15
BR696 296076.2 7666963.9 2.5 385 45.5 0.00 9.4 11500 1.15 0.11 26.42 0.00 257 0.03
BR697 295908.1 7667024.6 2.6 874 26.9 0.00 3.2 5090 0.51 0.05 671.16 0.07 43 0.00
BR698 295926.4 7667010.9 1 600 34.1 0.00 3 3510 0.35 0.06 100.32 0.01 98 0.01
BR699 295939.5 7666980.5 1 3180 85.3 0.01 8.6 911 0.09 0.02 54.09 0.01 1730 0.17
BR700 295979.1 7666973.2 0.8 1870 51.2 0.01 2.2 896 0.09 0.03 85.14 0.01 253 0.03
----- End of picture text -----

18

==> picture [494 x 745] intentionally omitted <==

----- Start of picture text -----

SampleID East North Ag g/t Ba ppm Cu ppm Cu % Mo ppm Pb ppm Pb% S ppm V2O5 ppm V2O5 % Zn ppm Zn %
BR701 296097.5 7666824.2 0.4 912 54.4 0.01 1.8 858 0.09 0.05 297.20 0.03 575 0.06
BR702 301934.2 7665646.5 1.4 164 281 0.03 10 21500 2.15 0.21 40.16 0.00 65 0.01
BR703 301928 7665656.6 3.3 134 89.3 0.01 4.1 36800 3.68 0.32 102.46 0.01 479 0.05
BR704 301899 7665734.3 0.7 405 105.5 0.01 8 14650 1.47 0.13 125.49 0.01 396 0.04
BR705 301898.3 7665742.2 1.1 174 59.2 0.01 18.6 23700 2.37 0.27 104.78 0.01 1015 0.10
BR706 301901.4 7665743.1 1 44 33.2 0.00 3.5 19700 1.97 0.31 33.92 0.00 520 0.05
BR707 301564.6 7666864.7 23 32 12600 1.26 6 277000 27.70 1.16 33.20 0.00 1130 0.11
BR708 301568.4 7666858.1 7.7 82 3090 0.31 4.4 122000 12.20 0.15 98.71 0.01 927 0.09
BR709 301570.3 7666842.4 11.4 134 2200 0.22 3.3 251000 25.10 0.13 39.81 0.00 113 0.01
BR710 301548.8 7666943.3 0.5 181 2260 0.23 1.6 5740 0.57 0.03 129.95 0.01 12300 1.23
BR711 301545.9 7666937.4 7.4 251 950 0.10 4.2 70700 7.07 0.17 14.28 0.00 2350 0.24
BR712 301524 7667032 1.8 51 622 0.06 1.8 28500 2.85 0.22 213.31 0.02 8170 0.82
BR713 301538.8 7667012.4 0.2 109 150 0.02 1.9 12150 1.22 0.05 157.26 0.02 406 0.04
BR714 301385.7 7667454.9 9.8 4 894 0.09 4.2 485000 48.50 5.7 260.61 0.03 25 0.00
BR715 301388.2 7667444.4 8.1 12 968 0.10 7.5 211000 21.10 3.32 7.32 0.00 64 0.01
BR716 301394.5 7667418.8 1.3 31 339 0.03 16.2 21600 2.16 0.18 121.56 0.01 188 0.02
BR717 297772.7 7672988.2 0.4 187 157 0.02 3.1 16550 1.66 0.2 149.05 0.01 242 0.02
BR718 297777.4 7672973.8 24.7 22 60.9 0.01 2.2 279000 27.90 1.23 6.07 0.00 64 0.01
BR719 297805.1 7672945.2 2.5 63 8600 0.86 80.4 5840 0.58 0.08 24.99 0.00 778 0.08
BR721 297808 7672941.7 0.3 59 99 0.01 1.4 1550 0.16 0.02 112.63 0.01 244 0.02
BR722 297815.5 7672932.4 1.4 124 390 0.04 8.9 15350 1.54 0.05 59.98 0.01 17250 1.73
BR723 297817.3 7672930.6 11.9 51 481 0.05 7.6 70700 7.07 0.16 8.57 0.00 9150 0.92
BR724 297820.2 7672922.3 5.2 61 608 0.06 12.6 37600 3.76 0.57 11.25 0.00 2670 0.27
BR725 297819.7 7672929.1 0.2 346 56.7 0.01 2.5 1580 0.16 0.01 190.10 0.02 792 0.08
BR726 298650.3 7672101.2 0.3 333 62.9 0.01 4.8 2630 0.26 0.02 138.34 0.01 228 0.02
BR727 300069 7670508.1 0.2 40 2320 0.23 2.1 244 0.02 0.04 59.80 0.01 119 0.01
BR728 300416.3 7669555.3 0.3 109 33.1 0.00 7.6 3310 0.33 0.02 204.38 0.02 287 0.03
BR729 302070.8 7664921.9 0.1 231 63.5 0.01 1.3 968 0.10 0.01 254.36 0.03 861 0.09
BR730 302089.6 7664871.3 0.2 48 303 0.03 1.3 2380 0.24 0.01 227.59 0.02 856 0.09
BR731 302215.1 7663957 0.1 146 55.6 0.01 0.9 167 0.02 0.01 277.57 0.03 1005 0.10
BR732 307845.9 7643665.6 0.2 290 458 0.05 7.4 2800 0.28 0.04 515.87 0.05 1075 0.11
BR733 307847.8 7643666 0.1 65 200 0.02 1.2 397 0.04 0.01 318.62 0.03 7340 0.73
BR734 307851.7 7643666.1 0.2 106 406 0.04 2.4 803 0.08 0.02 387.35 0.04 2310 0.23
BR735 307858.1 7643662.8 0.3 147 311 0.03 2.1 1240 0.12 0.01 410.55 0.04 1840 0.18
BR736 307893.9 7643619 0.1 305 72.5 0.01 1.2 1285 0.13 0.02 362.36 0.04 796 0.08
BR737 307901.8 7643570.4 0.1 44 182.5 0.02 2 1245 0.12 0.01 526.58 0.05 169 0.02
BR738 307910.3 7643555.2 0.6 22 243 0.02 10.4 3370 0.34 0.02 901.43 0.09 786 0.08
BR739 307975.8 7643360.5 3 130 1880 0.19 14.4 15350 1.54 0.04 2552.55 0.26 152500 15.25
BR740 307975.3 7643355 0.2 437 110.5 0.01 2.2 448 0.04 0.02 236.51 0.02 6970 0.70
BR741 307988.6 7643321.2 0.7 970 166.5 0.02 1.6 2100 0.21 0.06 205.28 0.02 9110 0.91
BR742 307991.6 7643316.2 18.8 301 792 0.08 54.7 81100 8.11 0.13 21.24 0.00 130000 13.00
BR743 307990.1 7643316.6 0.7 1080 116.5 0.01 1.3 1790 0.18 0.04 369.50 0.04 11450 1.15
BR744 307992.3 7643318.7 11.3 86 316 0.03 26.1 57500 5.75 0.14 55.34 0.01 3300 0.33
BR745 308012.9 7643279.3 18.9 30 169000 16.90 170.5 18850 1.89 1.01 3.93 0.00 39500 3.95
BR746 308006 7643271.9 0.2 283 556 0.06 2.6 5750 0.58 0.02 200.81 0.02 6290 0.63
BR747 308297.1 7642670 8.4 46 408 0.04 116 31900 3.19 0.55 449.82 0.04 30900 3.09
BR748 308296.1 7642669.5 1 312 7040 0.70 10.4 1065 0.11 0.06 198.14 0.02 5710 0.57
BR749 308464.4 7642342.7 0.1 262 115 0.01 0.7 156 0.02 0.01 204.38 0.02 897 0.09
BR750 308680.4 7641896.7 0.1 679 374 0.04 0.8 204 0.02 0.02 245.44 0.02 5780 0.58
BR751 309100.2 7641170.7 0.1 268 440 0.04 2.2 334 0.03 0.01 189.21 0.02 8920 0.89
BR752 309197.6 7640930 0.2 212 35.6 0.00 3.6 435 0.04 0.02 149.05 0.01 2300 0.23
BR754 309222.2 7640873.7 0.5 305 394 0.04 3.3 6220 0.62 0.04 139.94 0.01 10500 1.05
BR755 309220 7640881.8 0.1 816 118.5 0.01 1.5 280 0.03 0.03 201.71 0.02 6950 0.70
BR756 309430.8 7640306.3 0.4 360 779 0.08 4.3 900 0.09 0.05 153.51 0.02 13050 1.31
BR757 309461.6 7640236.3 0.1 157 55.3 0.01 0.5 34.4 0.00 0.01 232.94 0.02 2150 0.22
BR758 309458 7640247.1 0.5 256 737 0.07 1.3 799 0.08 0.01 191.00 0.02 12250 1.23
BR759 309569.9 7640052.7 0.1 214 89.8 0.01 0.7 253 0.03 0.01 189.21 0.02 17500 1.75
BR760 309581 7640031.6 10.2 13 215 0.02 3.6 3830 0.38 0.02 52.30 0.01 343000 34.30
BR761 309579.3 7640037.1 0.2 114 414 0.04 1.1 975 0.10 0.01 265.07 0.03 15100 1.51
BR762 309696.4 7639803.2 0.1 892 88.9 0.01 0.5 215 0.02 0.03 265.97 0.03 18600 1.86
BR763 309712.8 7639765 0.1 87 231 0.02 0.5 252 0.03 0.01 250.79 0.03 14350 1.44
BR764 310015.4 7639166.1 11.6 147 926 0.09 3.6 42600 4.26 0.09 59.98 0.01 20700 2.07
BR765 310017.2 7639161 0.2 201 48.2 0.00 0.5 1645 0.16 0.01 222.23 0.02 2700 0.27
BR766 309708.3 7639769 0.2 204 1240 0.12 1.4 1065 0.11 0.03 180.29 0.02 175000 17.50
BR767 295870.3 7685020.3 1.9 170 4610 0.46 14.9 3240 0.32 0.03 537.29 0.05 907 0.09
BR768 295872.6 7685021.9 0.7 187 3650 0.37 2.1 621 0.06 0.02 224.02 0.02 256 0.03
BR769 295876.4 7685025.9 2.1 163 5720 0.57 1.1 85.2 0.01 0.02 68.37 0.01 6170 0.62
BR770 295879 7685028.3 1.3 113 25900 2.59 5.4 224 0.02 0.1 97.82 0.01 242 0.02
BR771 295881.4 7685024.5 1.6 82 22700 2.27 9.5 1075 0.11 0.02 392.70 0.04 181 0.02
BR772 295885.7 7685028.8 0.7 72 7200 0.72 1.1 761 0.08 0.01 206.17 0.02 523 0.05
BR773 295882.6 7685033.1 0.6 73 4950 0.50 2.9 1185 0.12 0.01 297.20 0.03 149 0.01
BR774 295878.7 7685042.4 0.4 85 6570 0.66 4.2 292 0.03 0.02 98.71 0.01 207 0.02
BR775 295836.1 7685174.9 0.9 167 3740 0.37 33.5 12700 1.27 0.01 3186.23 0.32 1800 0.18
BR776 296722.6 7684023.1 47 90 47100 4.71 131 142000 14.20 0.21 1640.42 0.16 20700 2.07
BR777 296729.5 7684013.8 137 122 26500 2.65 72.4 319000 31.90 0.17 13030.50 1.30 5690 0.57
BR778 296736.7 7684005.7 38.1 42 42200 4.22 182 161500 16.15 0.36 12138.00 1.21 2040 0.20
----- End of picture text -----

19

==> picture [82 x 72] intentionally omitted <==

SampleID	East	North	Ag g/t	Bappm	Cuppm	Cu %	Moppm	Pbppm	Pb%	Sppm	V2O5ppm	V2O5 %	Znppm	Zn %
BR779	296742.3	7684005.3	4	34	3500	0.35	9.3	18200	1.82	0.02	969.26	0.10	2000	0.20
BR780	296762.9	7683971.2	79	36	86200	8.62	55.3	61200	6.12	0.85	949.62	0.09	1565	0.16
BR781	296787.4	7683932.1	32.3	116	20300	2.03	56.4	41000	4.10	0.19	871.08	0.09	4540	0.45
BR782	290062.1	7690660.8	0.2	224	171.5	0.02	1.2	1980	0.20	0.04	114.95	0.01	5310	0.53
BR783	290042.7	7690696.4	6.5	45	6470	0.65	34.5	9520	0.95	0.11	153.33	0.02	5900	0.59
BR784	290853.7	7687199.1	2.1	49	736	0.07	1.8	3460	0.35	0.04	85.14	0.01	4640	0.46
BR785	290801.6	7687234.3	0.8	59	119.5	0.01	0.5	491	0.05	0.01	160.47	0.02	2040	0.20
BR786	291209.7	7686406.6	1.5	35	529	0.05	2.2	5170	0.52	0.04	216.88	0.02	4270	0.43
BR788	291456	7686147.9	9.8	37	1085	0.11	7.2	1910	0.19	0.99	197.24	0.02	282	0.03
BR789	291462.3	7686160.2	0.8	127	211	0.02	1.8	397	0.04	0.07	159.40	0.02	184	0.02
BR790	291426.7	7686155.5	1.5	18	245	0.02	0.6	3300	0.33	0.03	353.43	0.04	3640	0.36
BR791	296423.1	7678200.5	0.4	91	121	0.01	1.3	200	0.02	0.03	96.39	0.01	633	0.06
BR792	296594.3	7678163.1	1.4	102	153	0.02	3.6	7940	0.79	0.02	1981.35	0.20	98	0.01
BR793	296549.7	7677673	2.8	168	440	0.04	1.8	2660	0.27	0.04	79.61	0.01	247	0.02
BR794	296553.7	7677647.8	3.4	60	147.5	0.01	1.1	15700	1.57	0.07	223.13	0.02	34	0.00
BR795	296575.2	7677614.1	3.9	160	199.5	0.02	12.9	13750	1.38	0.05	88.89	0.01	90	0.01
BR796	296580.2	7677600.3	61	3	1840	0.18	16.2	588000	58.80	8.29	8.93	0.00	85	0.01
BR797	296616.5	7677536.9	0.3	263	90.3	0.01	1	820	0.08	0.02	53.73	0.01	16	0.00
BR799	296726.2	7677297.3	0.2	390	38.5	0.00	0.5	348	0.03	0.02	289.17	0.03	1145	0.11
BR800	296818.2	7677009.3	6.4	41	227	0.02	3.7	61000	6.10	0.94	48.37	0.00	293	0.03
BR801	296822.1	7676983.5	0.1	95	35.2	0.00	0.6	62.3	0.01	0.01	46.95	0.00	1260	0.13
BR802	296823.1	7676979.7	6.8	15	2640	0.26	3.6	90500	9.05	0.17	30.88	0.00	73700	7.37
BR803	296823.8	7676982.7	2.2	32	544	0.05	7	18400	1.84	0.13	64.97	0.01	9270	0.93
BR804	292406.2	7675248.4	0.3	65	561	0.06	2.3	2750	0.28	0.02	162.44	0.02	1925	0.19
BR805	292217.6	7675256.6	0.4	248	1270	0.13	128.5	1630	0.16	0.05	227.59	0.02	3570	0.36
BR806	292302.8	7675649.9	0.9	251	90.9	0.01	2.6	3600	0.36	0.27	98.71	0.01	333	0.03
BR798	302761	7663921.5	0.4	260	177.5	0.02	10	617	0.06	0.05	148.69	0.01	3900	0.39

20

==> picture [82 x 72] intentionally omitted <==

Table 2

– In Situ pXRF Soil Sampling Example of Analyses

Site ID	Easting	Northing	Cuppm	Znppm	Pbppm	Site ID	Easting	Northing	Cuppm	Znppm	Pbppm
BBX781	309588	7640000	38.1	315.1	252.4	BBX851	308593	7642074	41.2	412.4	252.9
BBX782	309607	7639974	72.9	904.3	164.6	BBX852	308579	7642099	44.3	327.6	195.3
BBX783	309625	7639945	47.5	180.1	39.3	BBX853	308558	7642124	55.2	363.4	153.2
BBX784	309634	7639927	34.7	119.6	51.6	BBX854	308538	7642150	31.7	143	69.1
BBX785	309644	7639909	45.3	177.3	49.8	BBX855	308530	7642175	38.2	303.9	65.1
BBX786	309651	7639890	64.3	408.6	68.2	BBX856	308523	7642199	48	195.4	58.3
BBX787	309661	7639867	60.2	473.8	167.7	BBX857	308510	7642226	26.9	118.7	71.4
BBX788	309676	7639846	61.2	591.9	116.2	BBX858	308504	7642250	37.5	296.5	100.7
BBX789	309686	7639835	69	700.8	123.5	BBX859	308492	7642275	39.9	214	113.4
BBX790	309683	7639828	51.4	404.2	78.5	BBX860	308481	7642301	64.8	458.2	254.9
BBX791	309704	7639817	60.9	480.9	413.2	BBX861	308473	7642324	72	530.1	193.5
BBX792	309690	7639801	51.8	863.8	216.8	BBX862	308464	7642349	85.6	783.7	258.3
BBX793	309699	7639775	58	886.1	186.4	BBX863	308453	7642373	29.1	201.1	315.9
BBX794	309714	7639751	168.2	983.7	261.4	BBX864	308441	7642401	74.9	248.6	256.2
BBX795	309728	7639724	88.4	470.4	400.1	BBX865	308431	7642426	50.8	222.6	126.1
BBX796	309742	7639697	57.4	331	182.9	BBX866	308415	7642449	81.1	310.2	138.8
BBX797	309762	7639676	55.4	851.2	209	BBX867	308388	7642476	62	380	247.1
BBX798	309768	7639650	49.3	495.6	79.9	BBX868	308379	7642500	59	382.4	156.4
BBX799	309785	7639625	56.4	1283.5	400	BBX869	308363	7642525	78.4	507.6	277.2
BBX800	309802	7639600	45.5	676	665.7	BBX870	308348	7642549	65	397.2	208.7
BBX801	309813	7639574	36	564.3	166.5	BBX871	308337	7642573	31.8	285.5	72.3
BBX802	309825	7639550	56.4	544.2	236.5	BBX872	308329	7642598	26.9	546.5	111.2
BBX803	309841	7639526	45.4	359.9	73	BBX873	308322	7642623	51.4	207.9	162.9
BBX804	309855	7639500	51.1	193.5	88.7	BBX874	308311	7642649	37.5	442	145.9
BBX805	309870	7639476	37.4	107.9	42.2	BBX875	308299	7642673	84.9	2854.3	278.3
BBX806	309884	7639450	62.8	370.6	322.2	BBX876	308287	7642700	39.1	1070.1	366.5
BBX807	309911	7639401	60.4	169	149.3	BBX877	308282	7642725	40.8	346.2	90.8
BBX808	309918	7639378	51	85.4	32	BBX878	308275	7642749	40.9	332.9	91
BBX809	309927	7639351	53.9	166.5	150.2	BBX879	308262	7642766	27	171.7	77.3
BBX810	309929	7639325	55.6	206.5	220	BBX880	308253	7642789	46.8	182.4	247.8
BBX811	309938	7639301	41.5	211	179.3	BBX881	308245	7642810	36.4	166.8	153.3
BBX812	309960	7639273	47.9	363.3	103.1	BBX882	308265	7642827	63.4	367.2	1150.5
BBX813	309971	7639249	53.8	347.9	139.7	BBX883	308258	7642856	79.3	488.7	197.8
BBX814	309983	7639224	32.2	346.3	113.3	BBX884	308276	7642806	45.3	537.1	514
BBX815	310008	7639174	54.6	493.5	249.2	BBX885	308285	7642773	73.1	297.1	135.4
BBX816	310018	7639151	39	640.3	143	BBX886	308247	7642866	35.5	242.3	86.5
BBX817	310028	7639125	48.3	537	103.3	BBX887	308205	7642898	41.9	304.1	107.6
BBX818	310037	7639100	48.4	518.3	324.5	BBX888	308179	7642927	48.6	492.6	363
BBX819	310046	7639074	37.6	112.5	36.6	BBX889	308169	7642946	30.9	203.8	79.2
BBX820	310069	7639049	33.2	175.2	41.1	BBX890	308159	7642976	32	186.8	105.7
BBX821	309016	7641323	41.8	165.3	123.8	BBX891	308174	7642989	34.8	267.8	98.9
BBX822	309010	7641350	40.8	159.6	48.4	BBX892	308160	7643005	18.8	174.5	93.1
BBX823	308989	7641375	42.4	312.7	40.8	BBX893	308148	7643029	26.5	102.9	51.8
BBX824	308979	7641400	33.1	92.7	19.2	BBX894	308136	7643052	42.9	166.8	60
BBX825	308960	7641426	54	96.7	25.8	BBX895	308129	7643074	37.2	137.6	100.9
BBX826	308959	7641450	53.6	496.4	31.3	BBX896	308118	7643099	30.7	153.8	71.1
BBX827	308948	7641474	39.1	173.6	25.9	BBX897	308105	7643128	34	205.4	46.7
BBX828	308925	7641500	37.8	103.8	19.1	BBX898	308086	7643151	36.5	497.7	397.2
BBX829	308922	7641525	51.1	91.2	24.8	BBX899	308062	7643176	34.3	462.4	224.7
BBX830	308912	7641550	35.8	58.9	25.5	BBX900	308048	7643199	53.6	1170.6	237.7
BBX831	308898	7641576	31.8	62.8	23.8	BBX901	308036	7643222	50.3	889.2	816.4
BBX832	308883	7641601	38.3	83.3	26.6	BBX902	308053	7643234	41.9	337.4	81.4
BBX833	308870	7641626	31.3	82	20.6	BBX903	308062	7643215	59	758.4	238.8
BBX834	308855	7641649	30.1	96.9	25.6	BBX904	308041	7643267	47.6	201.5	113.3
BBX835	308836	7641675	58.5	196.1	56.2	BBX905	308036	7643301	31.1	83.2	61.6
BBX836	308818	7641701	25.8	140.2	32.8	BBX906	308030	7643326	34.8	161.1	66.8
BBX837	308812	7641724	29.3	162	31.2	BBX907	308021	7643354	65.4	144.8	81
BBX838	308788	7641750	45.9	182.8	47.1	BBX908	308007	7643381	37.6	162.3	84.1
BBX839	308768	7641775	20	123.4	35.2	BBX909	307988	7643417	43.9	281.3	125.9
BBX840	308745	7641800	39.1	175.6	55.4	BBX910	307955	7643425	74.3	385.9	552.7
BBX841	308723	7641825	28.4	132.7	38.7	BBX911	307964	7643397	97	559.5	460.7
BBX842	308702	7641848	54.9	99.7	58.2	BBX912	307976	7643363	45.7	860.5	278.5
BBX843	308691	7641874	35.4	202.7	128.3	BBX913	307982	7643336	47.7	851.5	440.1
BBX844	308684	7641899	61.4	745.5	500.4	BBX914	307993	7643306	102.9	900.3	824.2
BBX845	308670	7641925	63.7	668.2	188.7	BBX915	308013	7643278	167	1555.3	2673.4
BBX846	308653	7641947	76.4	459.4	253.2	BBX916	308025	7643244	80.1	1014.3	318.3
BBX847	308636	7641975	40.6	296.6	119	BBX917	307975	7643449	33.6	237.4	110.8
BBX848	308624	7641999	45.4	366.1	118.9	BBX918	307971	7643469	58	220.4	79.5
BBX849	308615	7642025	67.2	318.1	636.9	BBX919	307940	7643480	82.5	257.1	223.5
BBX850	308599	7642050	45.1	344.5	169.7	BBX920	307947	7643452	83	420.7	276.1

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