ARIKA RESOURCES LIMITED — Capital/Financing Update 2020

Jul 1, 2020

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ASX RELEASE: 2 July 2020

Metalicity Continues to Deliver Excellent Drill Hole Results for the Kookynie Gold Project

HIGHLIGHTS

• Metalicity continues to deliver excellent near surface, high grade drilling results from the Leipold prospect at the Kookynie Gold project, including:

• LPRC0032 – 10 metres @ 3.21 g/t Au from 26 metres,

• LPRC0028 – 3 metres @ 4.59 g/t Au from 31 metres

• LPRC0026 – 8 metres @ 2.92 g/t Au from 24 metres

• LPRC0024 – 6 metres @ 2.87 g/t Au from 58 metres

• LPRC0018 – 4 metres @ 3.69 g/t Au from 23 metres

• LPRC0022 – 4 metres @ 2.70 g/t Au from 26 metres

• Mineralisation remains open in all directions at Leipold.

• The southernmost hole drilled by Metalicity to date (Hole LPRC0032 10 metres @ 3.21 g/t Au from 26 metres), has extended the known mineralisation at the Leipold Prospect to a total of 0.5kms with a further 2.2kms of strike to the North and South, that remains relatively untested.

• Assays are pending for the remaining 15 drill holes which are due in the coming weeks with multiple holes intersecting visual quartz veining and alteration over good widths.

• With the outstanding drilling results from the first 29 holes, Metalicity now plans to recommence drilling shortly to continue to test the known prospects and develop drill targets within the further 8 kilometres of strike extensions to known high grade, near surface mineralisation.

• Drone Magnetic Survey completed for the Leipold-McTavish, Champion, Cosmopolitan and Altona Trends complete, with results to be released shortly and which will further refine new targets for the upcoming drilling programme.

Metalicity Limited (ASX: MCT) (“MCT” or “Company”) is pleased to announce a new batch of continued significant assays from June 2020 Phase One drilling programme at the Kookynie Gold Project* in the Eastern Goldfields, Western Australia, approximately 60 kilometres south southwest of Leonora.

*Please refer to ASX Announcement “Metalicity Farms Into Prolific Kookynie & Yundamindra Gold Projects, WA” dated 6 May 2019 with Nex Metals Explorations Ltd, ASX:NME.

Metalicity has received assays for the first 29 holes of a 44-hole initial program, which has confirmed significant and extensive high grade, near surface gold mineralisation at the Leipold Prospect. 15 drill holes from the Leipold and McTavish Prospects are pending results and are due for release in the coming weeks.

Commenting on the drilling results, Metalicity Managing Director, Jason Livingstone said:

“I am absolutely delighted with the results to date from our step out and confirmation drilling. Importantly these results are very shallow, high grade, which if converted to resources and reserves, could be potentially open pittable.”

“Our strike rate of significant gold intersections to date is very high. Of the 29 drill holes that we have received our assays results for, 21 out of 29 returned a significant intercept which speaks volumes of the endowment here. We still have 15 holes remaining for Leipold and McTavish where we have not received the completed assays for yet in June 2020 Phase One Drilling Programme. A salient point is that all of

Metalicity Limited ASX Code: MCT ABN: 92 086 839 992

www.metalicity.com.au Level 25, 108 St Georges Terrace Perth WA 6000

Metalicity’s drilling programmes have a success rate of nearly 88% in returning a mineralised intercept to date, therefore, we plan to immediately recommence drilling with our Phase Two expanded programme to continue to grow the footprint of this exciting Project.”

Assay & Drilling Discussion

The Kookynie Project is host to seven, significant prospects; Champion, McTavish, Leipold, Diamantina, Cosmopolitan and Cumberland (collectively known as the DCC Trend), and finally, the Altona Trend 1.5 kilometres east of the DCC Trend. The table below summarises the significant intercepts from the further 18 returned drill holes (total reported to date is 29, please refer to ASX Announcement titled “ Metalicity Continues to Deliver Spectacular Drill Hole Results for the Kookynie Gold Project ” dated 25 June 2020 for the first 11 drill hole results) of the 34 completed drill holes from this recent drilling programme at Leipold. A further 10 holes were drilled at McTavish, for a total of 44 holes for 2,255 metres:

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MGA94_Zone 51 South
Down
Hole Collar Collar Magnetic Final From To Grade
Prospect HoleID Tenement RL Dip Hole Comments
Type Easting Northing Azimuth Depth (m) (m) (Au g/t)
Width (m)
LPRC0014 RC 350,769 6,752,135 430 -60 250 75 No intercept >1g/t Au
LPRC0017 RC 350,736 6,752,057 430 -60 250 30 No intercept >1g/t Au
LPRC0018 RC 350,755 6,752,064 430 -60 250 42 23 27 4 3.69 4 m @ 3.69 g/t Au from 23m
LPRC0019 RC 350,774 6,752,071 430 -60 250 54 39 42 3 2.21 3 m @ 2.21 g/t Au from 39m
LPRC0020 RC 350,792 6,752,079 430 -60 250 72 57 60 3 - Void - Historical Workings Intersected
LPRC0021 RC 350,745 6,752,037 430 -60 250 30 No intercept >1g/t Au
LPRC0022 RC 350,764 6,752,044 430 -60 250 42 26 30 4 2.7 4 m @ 2.7 g/t Au from 26m
37 39 2 4.63 2 m @ 4.63 g/t Au from 37m
LPRC0023 RC 350782.5 6752051.2 430 -60 250 60
41 42 1 1.55 1 m @ 1.55 g/t Au from 41m
53 54 1 2.39 1 m @ 2.39 g/t Au from 53m
Leipold LPRC0024 M40/22 RC 350801.2 6752058.5 430 -60 250 78
58 64 6 2.87 6 m @ 2.87 g/t Au from 58m
LPRC0025 RC 350,753 6,752,019 430 -60 250 30 No intercept >1g/t Au
LPRC0026 RC 350,772 6,752,026 430 -60 250 40 24 32 8 2.92 8 m @ 2.92 g/t Au from 24m
LPRC0027 RC 350,759 6,751,999 430 -60 250 36 15 19 4 1.2 4 m @ 1.2 g/t Au from 15m
LPRC0028 RC 350,778 6,752,006 430 -60 250 42 31 34 3 4.59 3 m @ 4.59 g/t Au from 31m
LPRC0029 RC 350,763 6,751,977 430 -60 250 30 No intercept >1g/t Au
LPRC0030 RC 350,781 6,751,984 430 -60 250 40 25 31 6 1.77 6 m @ 1.77 g/t Au from 25m
LPRC0031 RC 350,775 6,751,941 430 -60 250 30 No intercept >1g/t Au
LPRC0032 RC 350,794 6,751,948 430 -60 250 48 26 36 10 3.21 10 m @ 3.21 g/t Au from 26m
LPRC0033 RC 350,790 6,752,033 430 -60 250 60 No intercept >1g/t Au
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Table 1 – Significant Drill Hole Intercepts

Intercepts were calculated based on a sample returning an assay value of greater than 1 g/t Au over an interval greater than 1 metre, but not including any more than 1 metre of internal material that graded less than 1 g/t Au.

The June 2020 Phase One drilling programme was designed to step out and continue to confirm the mineralisation observed in our previous drilling programmes, but also to confirm and continue the step out from historical drilling at both the Leipold and McTavish Prospects. Both Prospects have JORC 2004 compliant mineral resource estimates stated (Please refer to ASX Announcement by ASX:NME dated 1 August 2011 “ Update on activities ”). The principle aim of these programmes is to ensure results and data are of a standard supporting a new estimate and reporting and classification of the estimate in accordance with JORC 2012. The main issue to be addressed with historical drilling is that identified mineralisation needs to be verified by drill holes with down hole surveys to lend accuracy to its location below the ground. The second aspect of these programmes is to extend the known areas of mineralisation. The full sample and assay list for the available assays is available in Appendix Two along with the collar details for all drill holes drilled in the Phase One June 2020 drilling programme. This programme tested the shallow mineralisation observed at the Leipold Prospect. Please refer to Figure 1 for Prospect and tenure locations within the greater Kookynie Gold Project:

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Figure 1 – Kookynie Prospect Locality Map with mineralised trends.

Drill Hole Plane of Vein Long Section

Below is a drill hole plane of vein long section, cross section and collar plot that illustrate the recent drilling pierce points and discussion detailing the significance of the results to date at the Leipold Prospect. As noted earlier in this announcement, not all assays from the June 2020 Phase One drilling programme are available now, therefore, all assays received to date for an entire hole have been plotted on a long section and collar plan to illustrate the strike extents of the mineralisation observed to date.

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The Leipold Prospect

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Figure 2 – Leipold Plane of Vein Section with recent drilling.

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Figure 3 – Leipold Collar Plot of all drilling and extended mineralised trend.

The Company completed thirty-four (34) Reverse Circulation (RC) drill holes at the Leipold Prospect for a total of 1,721 metres in an area that is below the known historical workings and significantly up and down dip and along strike from historical drilling. We are pleased that each of the drill holes intersected the structure demonstrating the up dip and strike continuance of mineralisation beyond the previously defined limits. The known strike extent of the Leipold Prospect is 500 metres long, and to a vertical depth of approximately 80 metres. Historical drilling, especially around the southern extents near LPRC0032 and LPRC0033 was ineffective in intersecting the Leipold mineralised structure towards the south.

This is incredibly exciting and continues to demonstrate very shallow mineralisation exists at the Leipold Prospect. Table One illustrates all the available drill hole intercepts returned to date for the Leipold

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Prospect. Note that the McTavish Prospect also had 10 holes completed for 534 metres, giving the total for the Phase One June 2020 drilling programme a total of 44 drill holes for 2,255 metres.

The Company is observing consistent widths and relatively consistent grades at the Leipold Prospect in relation to the structural framework that hosts the mineralisation. The Leipold prospect is host to a JORC 2004 compliant mineral resource estimate of 555kt @ 1.9 g/t Au for 33koz (Please refer to ASX Announcement by ASX:NME dated 1 August 2011 “ Update on activities ”). To date, Metalicity has 33 completed drill holes with all assays returned (with 5 holes remaining), 20 of those holes are significantly higher than the resource estimate grade defined in 2011. With this infill and step out drilling, and a defined strike extent based from the results in LPRC0032, the Company is addressing aspects required under JORC 2012 compliancy within previously drilled areas, but also along strike, up and down dip too to eventually illustrate the size of this Prospect.

Pending Assays & Drone Magnetics Survey

As stated, this announcement details 29 holes of the 44 drill holes that were drilled in the Phase One June 2020 drilling programme. The Company still has the balance of the 15 drill holes pending. We expect to receive those results in their entirety over the coming weeks.

As the drill hole assay results become available, the Company will fold those results into our interpretations and refine further work plans. As noted in the highlights, for the main prospect areas, the actual data collection from the drone magnetic survey has been completed and is with a geophysical consultancy being processed to define drill targets. This information will be used to refine interpretations at these known prospects, but also generate drill targets along the 8 kilometres of strike that remains untested at the Kookynie Gold Project.

Plan Moving Forward

Whilst assays are still pending, the Company is moving to ensure an efficient and expeditious follow up to the results presented to date. The southern extents of Leipold represents an incredible opportunity to continue to delineate high grade, near surface mineralisation over a possible further 200 metres. This will involve stepping out from LPRC0032 and methodically drilling the structure to define mineralisation.

With the pending drone magnetic survey and assays from McTavish, these results will be folded into our interpretations and followed up within the Phase Two Drilling Programme.

The Company has approved programmes of work for both reverse circulation (RC) and diamond core drilling (DD) in place over all known prospects (including E40/289, immediately east of the Orient Well Mine Site) and can execute a larger drilling programme promptly.

Quality Control

The Company, as is normal during a drilling programme, implemented a quality assurance and control process (QAQC) whereby reconciliations with the drilled metre, the representative sample, and the actual sample bag that was submitted to the laboratory was rigorously controlled. Sampling and the designated analytical methods were also based on geology. That is interpreted mineralised zones were submitted for Screen Fire Assay whereas non mineralised interpreted zones were submitted for Fire Assay as a double check on the interpretation. The original cone split samples from the rig mounted cone splitter were submitted to the laboratory for analytical and QAQC investigations.

Furthermore, usual Industry Practice is to insert a standard (referred to as a CRM – Certified Reference Material that has a known grade within a specified confidence interval), a duplicate or a blank (whereby it is devoid of any mineralisation whatsoever) into the sampling regime to ensure, and on top of the laboratories own QAQC measures of 1 sample in every 20 is to represent one of these samples to ensure quality control.

The results returned by the laboratory where within the CRM stated acceptable standard deviation limits and the duplicity of the samples, given the nature of the mineralisation, were within acceptable limits.

Geology

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The Kookynie Project area is in the Keith-Kilkenny Tectonic Zone within the north-northwest trending Archean-aged Malcolm greenstone belt. The Keith-Kilkenny Tectonic Zone is a triangular shaped area hosting a succession of Archean mafic-ultramafic igneous and meta-sedimentary rocks. Regional magnetic data indicates the Kookynie region is bounded to the west by the north-trending Mt George Shear, the Keith-Kilkenny Shear Zone to the east and the Mulliberry Granitoid Complex to the south.

There are several styles of gold mineralisation identified in the Kookynie region. The largest system discovered to date is the high-grade mineralisation mined at the Admiral/Butterfly area, Desdemona area and Kookynie (Niagara) areas. The gold mineralisation is associated with pyritic quartz veins hosted within north to northeast dipping structures cross-cutting 'favourable' lithologies which can also extend into shears along geological contacts. Gold mineralisation at Kookynie tends to be preferentially concentrated in magnetite dominated granitic fractions of the overall granite plutons observed within the Kookynie area.

This Announcement is approved by Jason Livingstone, Managing Director & CEO of Metalicity Limited.

ENQUIRIES

Investors

Jason Livingstone MD & CEO +61 8 6500 0202 jlivingstone@metalicity.com.au

Competent Person Statement

Information in this report that relates to Exploration results and targets is based on, and fairly reflects, information compiled by Mr. Jason Livingstone, a Competent Person who is a Member of the Australian Institute of Geoscientists. Mr. Livingstone is an employee of Metalicity Limited. Mr. Livingstone has sufficient experience that is 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 by the 2012 Edition of the Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves. Mr. Livingstone consents to the inclusion of the data in the form and context in which it appears.

Note

This Announcement is designed to also supplement for Nex Metals Exploration as it relates to our farm-in agreement as announced on the 6[th] May 2019 titled “ Metalicity Farms Into Prolific Kookynie & Yundamindra Gold Projects, WA ”.

Forward Looking Statements

This announcement may contain certain “forward-looking statements” which may not have been based solely on historical facts, but rather may be based on the Company’s current expectations about future events and results. Where the Company expresses or implies an expectation or belief as to future events or results, such expectation or belief is expressed in good faith and believed to have reasonable basis. However, forwardlooking statements:

(a) are necessarily based upon a number of estimates and assumptions that, while considered reasonable by the Company, are inherently subject to significant technical, business, economic, competitive, political and social uncertainties and contingencies;

(b) involve known and unknown risks and uncertainties that could cause actual events or results to differ materially from estimated or anticipated events or results reflected in such forward-looking statements. Such risks include, without limitation, resource risk, metals price volatility, currency fluctuations, increased production costs and variances in ore grade or recovery rates from those assumed in mining plans, as well as political and operational risks in the countries and states in which the Company operates or supplies or sells product to, and governmental regulation and judicial outcomes; and

(c) may include, among other things, statements regarding estimates and assumptions in respect of prices, costs, results and capital expenditure, and are or may be based on assumptions and estimates related to future technical, economic, market, political, social and other conditions.

The words “believe”, “expect”, “anticipate”, “indicate”, “contemplate”, “target”, “plan”, “intends”, “continue”, “budget”, “estimate”, “may”, “will”, “schedule” and similar expressions identify forward-looking statements.

All forward-looking statements contained in this presentation are qualified by the foregoing cautionary statements. Recipients are cautioned that forward-looking statements are not guarantees of future performance and accordingly recipients are cautioned not to put undue reliance on forward-looking statements due to the inherent uncertainty therein.

The Company disclaims any intent or obligation to publicly update any forward-looking statements, whether as a result of new information, future events or results or otherwise.

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Appendix One – JORC Code, 2012 Edition – Table 1

Section 1: Sampling Techniques and Data

Criteria	JORC Code explanation	Commentary
Sampling techniques	● Nature and quality of sampling (eg cut channels, random chips, or specific specialised industry standard measurement tools appropriate to the minerals under investigation, such as down hole gamma sondes, or handheld XRF instruments, etc). These examples should not be taken as limiting the broad meaning of sampling. ● Include reference to measures taken to ensure sample representivity and the appropriate calibration of any measurement tools or systems used. ● Aspects of the determination of mineralisation that are Material to the Public Report. ● In cases where ‘industry standard’ work has been done this would be relatively simple (eg ‘reverse circulation drilling was used to obtain 1 m samples from which 3 kg was pulverised to produce a 30 g charge for fire assay’). In other cases more explanation may be required, such as where there is coarse gold that has inherent sampling problems. Unusual commodities or mineralisation types (eg submarine nodules) may warrant disclosure of detailed information.	● Reverse circulation (RC) sampling was conducted by the offsiders on the drill rig and checked at the end of each rod (6 metres) to ensure that the sample ID’s matched the interval that was intended to be represented by that sample ID. No issues were seen or noted by the Competent person during the entire drilling campaign. These samples are kept onsite in a secure location available for further analysis if required. ● All RC samples were sieved and washed to ensure samples were taken from the appropriate intervals. The presence of quartz veining +- sulphide presence +- alteration was used to determine if a zone was interpreted to be mineralised. If the sample was deemed to be potentially mineralised, the samples were submitted for screen fire assay. If no mineralisation was observed, the sample was submitted for check using fire assay. ● All samples were submitted for analysis, no compositing took place. ● The quality of the sampling is industry standard and was completed with the utmost care to ensure that the material being sampled, can be traced back to the interval taken from the drill hole for both RC and diamond core. ● OREAS standards of 60 gram charges of OREAS 22F (Au grade range of <1ppb Au – this is a blank), OREAS 251 (Au grade range of 0.498ppm Au to 0.510ppm Au), OREAS 219 (Au grade range of 0.753ppm Au to 0.768ppm Au) and OREAS 229b (Au grade range of 11.86ppm Au to 12.04ppm Au) were used in alternating and sporadic patterns at a ratio of 1 QAQC sample in 20 samples submitted. The material used to make these standards was sourced from a West Australian, Eastern Goldfields orogenic gold deposits.
Drilling techniques	● Drill type (eg core, reverse circulation, open-hole hammer, rotary air blast, auger, Bangka, sonic, etc) and details (eg 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).	● RC drilling used a bit size of 5 ¼ inch.
Drill sample recovery	● Method of recording and assessing core and chip sample recoveries and results assessed. ● Measures taken to maximise sample recovery and ensure representative nature of the samples.	● RC drilling sample recovery was excellent. ● No relationship was displayed between recovery and grade nor loss/gain of fine/course material.

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	● 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 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.	● All recovered sample from RC has been geologically logged to a level where it would support an appropriate Mineral Resource Estimate, mining studies and metallurgical test work. ● Logging was qualitative based on the 1 metre samples derived from the RC drilling.
Sub-sampling techniques and sample preparation	● If core, whether cut or sawn and whether quarter, half or all 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 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.	● RC samples were cone split at the rig. ● All RC samples were dry. All recoveries were >90%. ● Duplicates or a CRM standard were inserted every 20 samples. ● The Competent Person is of the opinion the sampling method is appropriate.
Quality of assay data and laboratory tests	● The nature, quality and appropriateness of the assaying and laboratory procedures used and whether the technique is considered partial or total. ● For geophysical tools, spectrometers, handheld XRF instruments, etc, the parameters used in determining the analysis including instrument make and model, reading times, calibrations factors applied and their derivation, etc. ● Nature of quality control procedures adopted (eg standards, blanks, duplicates, external laboratory checks) and whether acceptable levels of accuracy (ie lack of bias) and precision have been established.	● Fire assay and screen fire assay was used for selected RC samples. The methodologies employed in these analytical procedures are industry standard with appropriate checks and balances throughout their own processes. ● The analytical method employed is appropriate for the style of mineralisation and target commodity present. ● No geophysical tools, spectrometers, handheld XRF instruments were used. ● A 1 in 20 standard or duplicate or blank was employed during this programme. QAQC analysis shows that the lab performed within the specifications of the QAQC protocols. The standards used were from OREAS and based on material sourced from with the Eastern Goldfields. Blanks were also sourced from OREAS as well.

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Verification of sampling and assaying	● The verification of significant intersections by either independent 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.	● No umpire analysis has been performed. ● No twinned holes have been completed. ● Data was collected on to standardised templates in the field and data entered at night. Cross checks were performed verifying field data ● No adjustment to the available assay data has been made.
Location of data points	● Accuracy and quality of surveys used to locate drill holes (collar and down- hole surveys), trenches, mine workings and other locations used in Mineral Resource estimation. ● Specification of the grid system used. ● Quality and adequacy of topographic control.	● Drill hole collars will be surveyed using a DGPS. ● The RC holes were downhole surveyed using a “Champ Gyro multi-shot down hole survey camera”. ● GDA94 Zone 51S was used, collars will be picked up by a qualified surveyor using a DGPS (Trimble S7). ● The surveyed collar coordinates appear to be sufficient, however, better definition is required of the topography to allow for a JORC 2012 compliant estimation. ● Appendix Two contains collar coordinates as drilled:
Data spacing and distribution	● Data spacing for reporting of Exploration Results. ● Whether the data spacing and distribution is sufficient 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.	● The data spacing is sufficient to establish a relatively high confidence in geological and grade continuity, however, peripheral data to support the drill holes requires further work to ensure compliance with JORC 2012 guidelines. ● No sample compositing was applied beyond the calculation of down hole significant intercepts.
Orientation of data in relation to geological structure	● Whether the orientation of sampling achieves unbiased sampling of possible structures and the extent to which this is known, considering the deposit type. ● 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.	● All drilling was perpendicular to the main structure that hosts mineralisation. Secondary structures oblique to the main structure may have influence hanging and foot wall intercepts. ● The author believes that the drilling orientation and the orientation of key mineralised structures has not introduced a bias.
Sample security	● The measures taken to ensure sample security.	● The chain of supply from rig to the laboratory was overseen a contract geologist under the supervision of the Competent Person. At no stage has any person or entity outside of the Competent Person, the contract geologist, the drilling contractor, and the assay laboratory came into contact with the samples. ● Samples dispatched to the laboratorywere delivered to the laboratorybya

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		contract geologist, no third-party courier used.
Audits or reviews	● The results of any audits or reviews of sampling techniques and data.	● No external audit of the results, beyond the laboratory internal QAQC measures, has taken place.
ection 2: Reportingof Exploration Results
Criteria	JORC Code explanation	Commentary
Mineral tenement and land tenure status	● Type, reference name/number, location and ownership including agreements or material issues with third parties such as joint ventures, partnerships, overriding royalties, native title interests, historical sites, wilderness or national park and environmental settings. ● 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.	● Please refer to the tenement column below to where the drill holes were completed. ● Nex Metals Explorations Ltd hold the tenure in question. Metalicity is currently performing an earn in option as part of our farm in agreement (please refer to ASX Announcement “Metalicity Farms Into Prolific Kookynie & Yundamindra Gold Projects, WA” dated 6thMay 2019) ● No impediments exist to obtaining a license to operate over the listed tenure above.
Exploration done by other parties	● Acknowledgment and appraisal of exploration by other parties.	● Nex Metals Explorations Ltd have done a great job of collating the historical drilling completed over the previous 30 years. ● The historical work completed requires further field verification via re-down hole surveying (if possible) of drill holes beyond 60 metres depth – it appears below this depth; hole deviation becomes a factor in establishing the location of mineralisation in 3D. Furthermore, collar pickups require verification. All laboratory certificates for the assays on file are collated, only recommendation is possibly more duplicate information in mineralised zones.
Geology	● Deposit type, geological setting and style of mineralisation.	● Kookynie: ● The project area is in the Keith-Kilkenny Tectonic Zone within the north-northwest trending Archean-aged Malcolm greenstone belt. The Keith-Kilkenny Tectonic Zone is a triangular shaped area hosting a succession of Archean mafic-ultramafic igneous and meta-sedimentary rocks. Regional magnetic data indicates the Kookynie region is bounded to the west by the north-trending Mt George Shear, the Keith-Kilkenny Shear Zone to the east and the Mulliberry Granitoid Complex to the south. ● There are several styles of gold mineralisation identified in the Kookynie region. The largest system discovered to date is the high-

Section 2: Reporting of Exploration Results

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		grade mineralisation mined at the Admiral/Butterfly area, Desdemona area and Niagara area. The gold mineralisation is associated with pyritic quartz veins hosted within north to northeast dipping structures cross-cutting 'favourable' lithologies which can also extend into shears along geological contacts. Gold mineralisation tends to be preferentially concentrated in differentiated dolerite sills associated with pyrite/carbonate/silica/sericite wall rock alteration.
Drill hole Information	● A summary of all information material to the 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.	● For Kookynie (and Yundramindra), please refer to the Company’s announcement dated 6th May 2019, “Metalicity Farms Into Prolific Kookynie & Yundamindra Gold Projects, WA”, for all historical drill collar information, and selected significant intercepts. ● For the drilling performed and subject to this announcement, please see Appendix Two in this announcement.
Data aggregation methods	● In reporting Exploration Results, weighting averaging techniques, maximum and/or minimum grade truncations (eg 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.	● All intercepts have been calculated using the weighted average method but are based on 1 metre samples from RC drilling. Specific intervals within a interval have been described as part of the overall intercept statement. All results are presented in Appendix 2 for the reader to reconcile the Competent Persons’ calculations. ● Intercepts were calculated based on a sample returning an assay value of greater than 1 g/t Au over an interval greater than 1 metre, but not including any more than 1 metre of internal material that graded less than 1 g/t Au. Intervals were based on geology and no top cut off was applied. ● No metal equivalents are discussed or reported.
Relationship between mineralisation widths and	● These relationships are particularly important in the reporting of Exploration Results. ● If the geometry of the mineralisation with respect to the drill hole angle is known, its nature should be reported.	● Given the shallow dipping nature (approximately -45° on average) of the mineralisation observed at Kookynie, the nominal drilling inclination of -60° lends to close to truth width intercepts. ● However,cross cuttingstructures within the hangingwall and footwall are

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intercept lengths	● If it is not known and only the down hole lengths are reported, there should be a clear statement to this effect (eg ‘down hole length, true width not known’).	noted and may influence the results.
Diagrams	● Appropriate maps and sections (with scales) and tabulations of intercepts should be included for any significant discovery being reported These should include, but not be limited to a plan view of drill hole collar locations and appropriate sectional views.	● Please see main body of the announcement for the relevant figures.
Balanced reporting	● Where comprehensive reporting of all Exploration 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.	● All results have been presented. Please refer to Appendix 2.
Other substantive exploration data	● Other exploration data, if meaningful and material, should be reported including (but not limited to): geological observations; geophysical survey results; geochemical survey results; bulk samples – size and method of treatment; metallurgical test results; bulk density, groundwater, geotechnical and rock characteristics; potential deleterious or contaminating substances.	● The area has had significant historical production recorded and is accessible via the MINEDEX database. ● All stated mineral resources for the Kookynie (and Yundramindra) Projects are pre-JORC 2012. Considerable work around bulk density, QAQC, down hole surveys and metallurgy, coupled with the planned drilling will be required to ensure compliance with JORC 2012 guidelines.
Further work	● The nature and scale of planned further work (eg tests for lateral extensions or depth extensions or large-scale step-out 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.	● Metalicity intends to drill the known and extend the mineralised occurrences within the Kookynie and Yundramindra Projects. The Yundramindra Project is currently under the plaint process, however Metalicity believes that Nex Metals is well advanced in defending those claims. The drilling will be designed to validate historical drilling with a view to making maiden JORC 2012 Mineral Resource Estimate statements. Metalicity has made the aspirational statement of developing “significant resource and reserve base on which to commence a sustainable mining operation focusing on grade and margin”. ● Diagrams pertinent to the area’s in question are supplied in the body of this announcement.

==> picture [135 x 29] intentionally omitted <==

13

Appendix Two – Drilling and Assay Information

Reverse Circulation Drilling and Assay Information:

Collar Information:

Prospect	Tenement	Actual Hold ID	GDA94 Z51 East	GDA94 Z51 North	GDA94 Z51 RL	Magnetic Azimuth	Dip	Hole Depth	Drill Type	Results discussed in this Announcement
Leipold	M40/22	LPRC0005	350,713	6,752,113	430	250	-60	30	RC	Results Disclosed
Leipold	M40/22	LPRC0006	350,732	6,752,121	430	250	-60	36	RC	Results Disclosed
Leipold	M40/22	LPRC0007	350,720	6,752,092	430	250	-60	30	RC	Results Disclosed
Leipold	M40/22	LPRC0008	350,739	6,752,099	430	250	-60	36	RC	Results Disclosed
Leipold	M40/22	LPRC0009	350,728	6,752,074	430	250	-60	30	RC	Results Disclosed
Leipold	M40/22	LPRC0010	350,746	6,752,081	430	250	-60	36	RC	Results Disclosed
Leipold	M40/22	LPRC0011	350,765	6,752,088	430	250	-60	54	RC	Results Disclosed
Leipold	M40/22	LPRC0012	350,784	6,752,096	430	250	-60	78	RC	Results Disclosed
Leipold	M40/22	LPRC0013	350,751	6,752,128	430	250	-60	54	RC	Results Disclosed
Leipold	M40/22	LPRC0014	350,769	6,752,135	430	250	-60	75	RC	Assays Pending
Leipold	M40/22	LPRC0015	350,757	6,752,107	430	250	-60	60	RC	Results Disclosed
Leipold	M40/22	LPRC0016	350,776	6,752,114	430	250	-60	84	RC	Results Disclosed
Leipold	M40/22	LPRC0017	350,736	6,752,057	430	250	-60	30	RC	Assays Pending
Leipold	M40/22	LPRC0018	350,755	6,752,064	430	250	-60	42	RC	Assays Pending
Leipold	M40/22	LPRC0019	350,774	6,752,071	430	250	-60	54	RC	Assays Pending
Leipold	M40/22	LPRC0020	350,792	6,752,079	430	250	-60	72	RC	Assays Pending
Leipold	M40/22	LPRC0021	350,745	6,752,037	430	250	-60	30	RC	Assays Pending
Leipold	M40/22	LPRC0022	350,764	6,752,044	430	250	-60	42	RC	Assays Pending
Leipold	M40/22	LPRC0023	350,783	6,752,051	430	250	-60	60	RC	Assays Pending
Leipold	M40/22	LPRC0024	350,801	6,752,058	430	250	-60	78	RC	Assays Pending
Leipold	M40/22	LPRC0025	350,753	6,752,019	430	250	-60	30	RC	Assays Pending
Leipold	M40/22	LPRC0026	350,772	6,752,026	430	250	-60	40	RC	Assays Pending
Leipold	M40/22	LPRC0027	350,759	6,751,999	430	250	-60	36	RC	Assays Pending
Leipold	M40/22	LPRC0028	350,778	6,752,006	430	250	-60	42	RC	Assays Pending
Leipold	M40/22	LPRC0029	350,763	6,751,977	430	250	-60	30	RC	Assays Pending
Leipold	M40/22	LPRC0030	350,781	6,751,984	430	250	-60	40	RC	Assays Pending
Leipold	M40/22	LPRC0031	350,775	6,751,941	430	250	-60	30	RC	Assays Pending
Leipold	M40/22	LPRC0032	350,794	6,751,948	430	250	-60	48	RC	Assays Pending
Leipold	M40/22	LPRC0033	350,790	6,752,033	430	250	-60	60	RC	Assays Pending
Leipold	M40/22	LPRC0034	350,809	6,752,041	430	250	-60	78	RC	Assays Pending
Leipold	M40/22	LPRC0035	350,796	6,752,014	430	250	-60	60	RC	Assays Pending
Leipold	M40/22	LPRC0036	350,815	6,752,021	430	250	-60	78	RC	Assays Pending
Leipold	M40/22	LPRC0037	350,800	6,751,991	430	250	-60	60	RC	Assays Pending
Leipold	M40/22	LPRC0038	350,819	6,751,999	430	250	-60	78	RC	Assays Pending
McTavish	M40/77	McTRC0006	350,599	6,754,095	423	270	-60	42	RC	Assays Pending
McTavish	M40/77	McTRC0007	350,595	6,754,080	423	270	-60	48	RC	Assays Pending
McTavish	M40/77	McTRC0008	350,635	6,754,080	423	270	-60	72	RC	Assays Pending
McTavish	M40/77	McTRC0009	350,655	6,754,080	423	270	-60	84	RC	Assays Pending
McTavish	M40/77	McTRC0010	350,590	6,754,120	423	270	-60	36	RC	Assays Pending
McTavish	M40/77	McTRC0011	350,610	6,754,120	423	270	-60	54	RC	Assays Pending
McTavish	M40/77	McTRC0012	350,630	6,754,125	423	270	-60	66	RC	Assays Pending
McTavish	M40/77	McTRC0013	350,575	6,754,050	423	270	-60	36	RC	Assays Pending
McTavish	M40/77	McTRC0014	350,595	6,754,050	423	270	-60	42	RC	Assays Pending
McTavish	M40/77	McTRC0015	350,615	6,754,050	423	270	-60	54	RC	Assays Pending
Total								2,255

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14

Assay Information (including duplicates and CRM Analysis):

Note:

“Void – No Sample” means an underground working was intercepted and has been mined out. Therefore, no sample was able to be recovered.

“Duplicate” – means a field duplicate was taken at the rig to test the repeatability of an assay.

“Standard XXXXX” – means a sample was inserted at a known grade to test the analysis process to ensure its accuracy.

“I/S” – means insufficient sample was submitted to be able to perform an analysis on.

“X” – means the result was below detection.

Duplicates and CRM analysis was not used in the calculation of the significant intercepts.

Hole_ID	From	To	Analysis	Assay g/t Au	Comments
LPRC0014	0	1	Fire Assay	0.041
LPRC0014	1	2	Fire Assay	0.072
LPRC0014	2	3	Fire Assay	0.024
LPRC0014	3	4	Fire Assay	0.011
LPRC0014	4	5	Fire Assay	0.009
LPRC0014	5	6	Fire Assay	0.019
LPRC0014	6	7	Fire Assay	0.012
LPRC0014	7	8	Fire Assay	0.011
LPRC0014	8	9	Fire Assay	0.013
LPRC0014	9	10	Fire Assay	0.007
LPRC0014	10	11	Fire Assay	0.01
LPRC0014	11	12	Fire Assay	0.009
LPRC0014	12	13	Fire Assay	0.006
LPRC0014	13	14	Fire Assay	0.007
LPRC0014			Fire Assay	0.781	Standard OREAS 219
LPRC0014	14	15	Fire Assay	0.006
LPRC0014	15	16	Fire Assay	0.011
LPRC0014	16	17	Fire Assay	X
LPRC0014	17	18	Fire Assay	X
LPRC0014	18	19	Fire Assay	X
LPRC0014	19	20	Fire Assay	0.024
LPRC0014	20	21	Fire Assay	0.011
LPRC0014	21	22	Fire Assay	0.015
LPRC0014	22	23	Fire Assay	0.008
LPRC0014	23	24	Fire Assay	0.024
LPRC0014	24	25	Fire Assay	0.191
LPRC0014	25	26	Fire Assay	0.025
LPRC0014	26	27	Fire Assay	0.028
LPRC0014	27	28	Fire Assay	0.029
LPRC0014	28	29	Fire Assay	0.029
LPRC0014	29	30	Fire Assay	0.007

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15

LPRC0014	30	31	Fire Assay	0.048
LPRC0014	31	32	Fire Assay	X
LPRC0014	32	33	Fire Assay	0.01
LPRC0014	33	34	Fire Assay	X
LPRC0014	33	34	Fire Assay	X	DUPLICATE
LPRC0014	34	35	Fire Assay	X
LPRC0014	35	36	Fire Assay	X
LPRC0014	36	37	Fire Assay	0.013
LPRC0014	37	38	Fire Assay	0.01
LPRC0014	38	39	Fire Assay	0.026
LPRC0014	39	40	Fire Assay	0.054
LPRC0014	40	41	Fire Assay	0.027
LPRC0014	41	42	Fire Assay	0.012
LPRC0014	42	43	Fire Assay	0.01
LPRC0014	43	44	Fire Assay	0.007
LPRC0014	44	45	Fire Assay	0.01
LPRC0014	45	46	Fire Assay	0.008
LPRC0014	46	47	Fire Assay	X
LPRC0014	47	48	Fire Assay	X
LPRC0014	48	49	Fire Assay	0.022
LPRC0014	49	50	Fire Assay	0.019
LPRC0014	50	51	Fire Assay	0.008
LPRC0014	51	52	Fire Assay	0.013
LPRC0014			Fire Assay	0.267	Standard G311-3
LPRC0014	52	53	Fire Assay	0.261
LPRC0014	53	54	Fire Assay	0.598
LPRC0014	54	55	Screen Fire Assay	0.34
LPRC0014	55	56	Screen Fire Assay	0.38
LPRC0014	56	57	Screen Fire Assay	0.49
LPRC0014	57	58	Screen Fire Assay	0.21
LPRC0014	58	59	Screen Fire Assay	0.11
LPRC0014	59	60	Screen Fire Assay	0.23
LPRC0014	60	61	Screen Fire Assay	0.16
LPRC0014	61	62	Screen Fire Assay	0.09
LPRC0014	62	63	Screen Fire Assay	0.17
LPRC0014	63	64	Screen Fire Assay	0.23
LPRC0014	64	65	Fire Assay	0.111
LPRC0014	65	66	Fire Assay	0.156
LPRC0014	66	67	Fire Assay	0.038
LPRC0014	67	68	Fire Assay	0.021
LPRC0014	68	69	Fire Assay	0.011
LPRC0014	69	70	Fire Assay	0.022
LPRC0014	70	71	Fire Assay	0.011
LPRC0014	70	71	Fire Assay	0.009	DUPLICATE

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16

LPRC0014	71	72	Fire Assay	0.008
LPRC0014	72	73	Fire Assay	0.059
LPRC0014	72	73	Fire Assay	0.062	DUPLICATE
LPRC0014	73	74	Fire Assay	0.036
LPRC0014	74	75	Fire Assay	0.016
LPRC0017	0	1	Fire Assay	0.067
LPRC0017	1	2	Fire Assay	0.056
LPRC0017	2	3	Fire Assay	0.036
LPRC0017	3	4	Fire Assay	0.066
LPRC0017	3	4	Fire Assay	0.061	DUPLICATE
LPRC0017	4	5	Fire Assay	0.059
LPRC0017	5	6	Fire Assay	0.082
LPRC0017	6	7	Fire Assay	0.064
LPRC0017	7	8	Fire Assay	0.07
LPRC0017	8	9	Fire Assay	0.06
LPRC0017	9	10	Fire Assay	0.852
LPRC0017	10	11	Fire Assay	0.8
LPRC0017	11	12	Fire Assay	0.098
LPRC0017	12	13	Fire Assay	0.081
LPRC0017	13	14	Fire Assay	0.073
LPRC0017	14	15	Fire Assay	0.028
LPRC0017	15	16	Screen Fire Assay	0.02
LPRC0017	16	17	Screen Fire Assay	0.03
LPRC0017	17	18	Screen Fire Assay	0.01
LPRC0017	18	19	Screen Fire Assay	0.02
LPRC0017	19	20	Fire Assay	0.029
LPRC0017	20	21	Fire Assay	0.008
LPRC0017	21	22	Fire Assay	0.007
LPRC0017			Fire Assay	0.264	STANDARD G311-3
LPRC0017	22	23	Fire Assay	X
LPRC0017	23	24	Fire Assay	0.012
LPRC0017	24	25	Fire Assay	0.037
LPRC0017	25	26	Fire Assay	0.137
LPRC0017	26	27	Fire Assay	X
LPRC0017	27	28	Fire Assay	0.012
LPRC0017	28	29	Fire Assay	X
LPRC0017	29	30	Fire Assay	X
LPRC0018	0	1	Fire Assay	0.067
LPRC0018	1	2	Fire Assay	0.041
LPRC0018	2	3	Fire Assay	0.019
LPRC0018	3	4	Fire Assay	0.013
LPRC0018	4	5	Fire Assay	0.045
LPRC0018	5	6	Fire Assay	0.026
LPRC0018	6	7	Fire Assay	0.015

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17

LPRC0018	7	8	Fire Assay	0.018
LPRC0018	8	9	Fire Assay	0.012
LPRC0018	9	10	Fire Assay	0.022
LPRC0018	10	11	Fire Assay	0.026
LPRC0018	10	11	Fire Assay	0.028	DUPLICATE
LPRC0018	11	12	Fire Assay	0.008
LPRC0018	12	13	Fire Assay	0.036
LPRC0018	13	14	Fire Assay	0.246
LPRC0018	14	15	Fire Assay	0.013
LPRC0018	15	16	Fire Assay	X
LPRC0018	16	17	Fire Assay	0.008
LPRC0018	17	18	Fire Assay	0.007
LPRC0018	18	19	Fire Assay	0.038
LPRC0018	19	20	Fire Assay	0.012
LPRC0018	20	21	Fire Assay	0.02
LPRC0018	20	21	Fire Assay	0.035	DUPLICATE
LPRC0018	21	22	Fire Assay	0.026
LPRC0018	22	23	Fire Assay	0.576
LPRC0018	23	24	Screen Fire Assay	3.83
LPRC0018	24	25	Screen Fire Assay	6.62
LPRC0018	25	26	Screen Fire Assay	0.43
LPRC0018	26	27	Screen Fire Assay	3.88
LPRC0018	27	28	Screen Fire Assay	0.06
LPRC0018	28	29	Fire Assay	0.01
LPRC0018	29	30	Fire Assay	0.043
LPRC0018	30	31	Fire Assay	0.04
LPRC0018	31	32	Fire Assay	0.007
LPRC0018	32	33	Fire Assay	0.093
LPRC0018	33	34	Fire Assay	0.067
LPRC0018	34	35	Fire Assay	0.129
LPRC0018	35	36	Fire Assay	0.012
LPRC0018	36	37	Fire Assay	0.04
LPRC0018	37	38	Fire Assay	0.018
LPRC0018	38	39	Fire Assay	0.007
LPRC0018	39	40	Fire Assay	X
LPRC0018	40	41	Fire Assay	X
LPRC0018	41	42	Fire Assay	X
LPRC0019	0	1	Fire Assay	0.309
LPRC0019	1	2	Fire Assay	0.108
LPRC0019	2	3	Fire Assay	0.046
LPRC0019	3	4	Fire Assay	0.034
LPRC0019	4	5	Fire Assay	0.025
LPRC0019	5	6	Fire Assay	0.017
LPRC0019	6	7	Fire Assay	0.013

==> picture [135 x 29] intentionally omitted <==

18

LPRC0019			Fire Assay	X	STANDARD GL6912-2
LPRC0019	7	8	Fire Assay	0.014
LPRC0019	8	9	Fire Assay	0.011
LPRC0019	9	10	Fire Assay	0.007
LPRC0019	10	11	Fire Assay	0.009
LPRC0019	11	12	Fire Assay	0.006
LPRC0019	12	13	Fire Assay	0.005
LPRC0019	13	14	Fire Assay	0.014
LPRC0019	14	15	Fire Assay	X
LPRC0019	15	16	Fire Assay	0.01
LPRC0019	16	17	Fire Assay	0.013
LPRC0019	17	18	Fire Assay	0.012
LPRC0019	18	19	Fire Assay	0.022
LPRC0019	19	20	Fire Assay	0.019
LPRC0019	20	21	Fire Assay	0.016
LPRC0019	21	22	Fire Assay	0.041
LPRC0019	22	23	Fire Assay	0.011
LPRC0019	23	24	Fire Assay	0.062
LPRC0019	24	25	Fire Assay	0.022
LPRC0019	25	26	Fire Assay	0.052
LPRC0019	26	27	Fire Assay	0.094
LPRC0019	26	27	Fire Assay	0.007	DUPLICATE
LPRC0019	27	28	Fire Assay	0.009
LPRC0019	28	29	Fire Assay	0.014
LPRC0019	29	30	Fire Assay	0.113
LPRC0019	30	31	Fire Assay	0.105
LPRC0019	31	32	Fire Assay	X
LPRC0019	32	33	Fire Assay	0.07
LPRC0019	33	34	Fire Assay	0.005
LPRC0019	34	35	Fire Assay	0.026
LPRC0019	35	36	Fire Assay	0.009
LPRC0019	36	37	Fire Assay	0.021
LPRC0019	37	38	Fire Assay	X
LPRC0019	38	39	Fire Assay	0.051
LPRC0019	39	40	Screen Fire Assay	3.42
LPRC0019	40	41	Screen Fire Assay	1.32
LPRC0019	41	42	Screen Fire Assay	1.88
LPRC0019	42	43	Fire Assay	0.409
LPRC0019	43	44	Fire Assay	0.198
LPRC0019	44	45	Fire Assay	0.024
LPRC0019			Fire Assay	0.494	STANDARD G311-1
LPRC0019	45	46	Fire Assay	0.009
LPRC0019	46	47	Fire Assay	0.007
LPRC0019	47	48	Fire Assay	0.308

==> picture [135 x 29] intentionally omitted <==

19

LPRC0019	48	49	Fire Assay	0.189
LPRC0019	49	50	Fire Assay	0.144
LPRC0019	50	51	Fire Assay	0.144
LPRC0019	51	52	Fire Assay	0.134
LPRC0019	52	53	Fire Assay	0.051
LPRC0019	53	54	Fire Assay	0.027
LPRC0020	0	1	Fire Assay	0.108
LPRC0020	1	2	Fire Assay	0.104
LPRC0020	2	3	Fire Assay	0.053
LPRC0020	3	4	Fire Assay	0.027
LPRC0020	4	5	Fire Assay	0.024
LPRC0020	5	6	Fire Assay	0.013
LPRC0020	6	7	Fire Assay	0.036
LPRC0020	7	8	Fire Assay	0.011
LPRC0020	8	9	Fire Assay	0.006
LPRC0020	9	10	Fire Assay	0.007
LPRC0020	9	10	Fire Assay	0.011	DUPLICATE
LPRC0020	10	11	Fire Assay	0.009
LPRC0020	11	12	Fire Assay	0.006
LPRC0020	12	13	Fire Assay	0.007
LPRC0020	13	14	Fire Assay	0.008
LPRC0020	14	15	Fire Assay	X
LPRC0020	15	16	Fire Assay	0.006
LPRC0020	16	17	Fire Assay	X
LPRC0020	17	18	Fire Assay	X
LPRC0020	18	19	Fire Assay	0.013
LPRC0020	19	20	Fire Assay	X
LPRC0020	19	20	Fire Assay	X	DUPLICATE
LPRC0020	20	21	Fire Assay	0.026
LPRC0020	21	22	Fire Assay	X
LPRC0020	22	23	Fire Assay	0.015
LPRC0020	23	24	Fire Assay	X
LPRC0020	24	25	Fire Assay	X
LPRC0020	25	26	Fire Assay	X
LPRC0020	26	27	Fire Assay	0.034
LPRC0020	27	28	Fire Assay	X
LPRC0020	28	29	Fire Assay	0.006
LPRC0020	29	30	Fire Assay	0.05
LPRC0020	30	31	Fire Assay	0.008
LPRC0020	31	32	Fire Assay	X
LPRC0020	32	33	Fire Assay	0.023
LPRC0020	33	34	Fire Assay	0.012
LPRC0020	34	35	Fire Assay	0.173
LPRC0020	35	36	Fire Assay	0.058

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20

LPRC0020	36	37	Fire Assay	0.051
LPRC0020	37	38	Fire Assay	0.011
LPRC0020	38	39	Fire Assay	0.105
LPRC0020	39	40	Fire Assay	0.077
LPRC0020	40	41	Fire Assay	0.05
LPRC0020	41	42	Fire Assay	0.079
LPRC0020	42	43	Fire Assay	0.214
LPRC0020	43	44	Fire Assay	0.059
LPRC0020	44	45	Fire Assay	0.015
LPRC0020	45	46	Fire Assay	0.115
LPRC0020	46	47	Fire Assay	0.011
LPRC0020	47	48	Fire Assay	0.025
LPRC0020			Fire Assay	12.343	STANDARD OREAS 229b
LPRC0020	48	49	Fire Assay	0.018
LPRC0020	49	50	Fire Assay	0.034
LPRC0020	50	51	Fire Assay	0.022
LPRC0020	51	52	Fire Assay	X
LPRC0020	52	53	Screen Fire Assay	0.14
LPRC0020	53	54	Screen Fire Assay	0.19
LPRC0020	54	55	Screen Fire Assay	0.02
LPRC0020	55	56	Screen Fire Assay	0.03
LPRC0020	56	57	Screen Fire Assay	0.04
LPRC0020	57	58	NS		VOID - NO SAMPLE
LPRC0020	58	59	Screen Fire Assay	0.09
LPRC0020	59	60	NS		VOID - NO SAMPLE
LPRC0020	60	61	Screen Fire Assay	0.91
LPRC0020	61	62	Screen Fire Assay	0.21
LPRC0020	62	63	Screen Fire Assay	0.11
LPRC0020	63	64	Fire Assay	0.172
LPRC0020	64	65	Fire Assay	0.307
LPRC0020	65	66	Fire Assay	0.059
LPRC0020	66	67	Fire Assay	0.112
LPRC0020	67	68	Fire Assay	0.065
LPRC0020	67	68	Fire Assay	0.082	DUPLICATE
LPRC0020	68	69	Fire Assay	0.218
LPRC0020	69	70	Fire Assay	0.008
LPRC0020	70	71	Fire Assay	0.149
LPRC0020	71	72	Fire Assay	0.082
LPRC0021	0	1	Fire Assay	0.107
LPRC0021	1	2	Fire Assay	0.089
LPRC0021	2	3	Fire Assay	0.035
LPRC0021	3	4	Fire Assay	0.029
LPRC0021	4	5	Fire Assay	0.029
LPRC0021	5	6	Fire Assay	0.032

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21

LPRC0021	6	7	Fire Assay	0.055
LPRC0021	7	8	Fire Assay	0.025
LPRC0021	8	9	Fire Assay	0.026
LPRC0021	9	10	Fire Assay	0.013
LPRC0021	10	11	Fire Assay	0.032
LPRC0021	11	12	Fire Assay	0.03
LPRC0021	12	13	Fire Assay	0.046
LPRC0021	13	14	Fire Assay	0.301
LPRC0021			Fire Assay	0.265	STANDARD G311-3
LPRC0021	14	15	Fire Assay	0.275
LPRC0021	15	16	Fire Assay	0.173
LPRC0021	16	17	Fire Assay	0.077
LPRC0021	17	18	Fire Assay	0.057
LPRC0021	18	19	Fire Assay	0.012
LPRC0021	19	20	Fire Assay	0.006
LPRC0021	20	21	Fire Assay	0.014
LPRC0021	21	22	Fire Assay	X
LPRC0021	22	23	Fire Assay	0.012
LPRC0021	23	24	Fire Assay	0.012
LPRC0021	24	25	Fire Assay	X
LPRC0021	25	26	Fire Assay	0.006
LPRC0021	26	27	Fire Assay	X
LPRC0021	27	28	Fire Assay	X
LPRC0021	28	29	Fire Assay	X
LPRC0021	29	30	Fire Assay	X
LPRC0022	0	1	Fire Assay	0.051
LPRC0022	1	2	Fire Assay	0.052
LPRC0022	2	3	Fire Assay	0.017
LPRC0022	2	3	Fire Assay	0.023	DUPLICATE
LPRC0022	3	4	Fire Assay	0.01
LPRC0022	4	5	Fire Assay	0.006
LPRC0022	5	6	Fire Assay	0.009
LPRC0022	6	7	Fire Assay	0.007
LPRC0022	7	8	Fire Assay	0.007
LPRC0022	8	9	Fire Assay	0.012
LPRC0022	9	10	Fire Assay	0.023
LPRC0022	10	11	Fire Assay	0.011
LPRC0022	11	12	Fire Assay	0.033
LPRC0022	12	13	Fire Assay	0.016
LPRC0022	12	13	Fire Assay	0.016	DUPLICATE
LPRC0022	13	14	Fire Assay	0.02
LPRC0022	14	15	Fire Assay	0.032
LPRC0022	15	16	Fire Assay	0.016
LPRC0022	16	17	Fire Assay	X

==> picture [135 x 29] intentionally omitted <==

22

LPRC0022	17	18	Fire Assay	0.073
LPRC0022	18	19	Fire Assay	0.241
LPRC0022	19	20	Fire Assay	0.271
LPRC0022	20	21	Fire Assay	0.008
LPRC0022	21	22	Fire Assay	0.763
LPRC0022	22	23	Fire Assay	1.544
LPRC0022	23	24	Fire Assay	0.092
LPRC0022	24	25	Fire Assay	0.152
LPRC0022	25	26	Fire Assay	0.095
LPRC0022	26	27	Fire Assay	3.303
LPRC0022	27	28	Screen Fire Assay	4.34
LPRC0022	28	29	Screen Fire Assay	0.4
LPRC0022	29	30	Screen Fire Assay	2.76
LPRC0022	30	31	Fire Assay	0.497
LPRC0022	31	32	Fire Assay	0.254
LPRC0022	32	33	Fire Assay	0.024
LPRC0022	33	34	Fire Assay	0.035
LPRC0022	34	35	Fire Assay	X
LPRC0022	35	36	Fire Assay	0.754
LPRC0022	36	37	Fire Assay	0.347
LPRC0022	37	38	Fire Assay	0.02
LPRC0022	38	39	Fire Assay	0.035
LPRC0022	39	40	Fire Assay	X
LPRC0022	40	41	Fire Assay	0.006
LPRC0022			Fire Assay	0.498	STANDARD G311-1
LPRC0022	41	42	Fire Assay	X
LPRC0023	0	1	Fire Assay	0.106
LPRC0023	1	2	Fire Assay	0.177
LPRC0023	2	3	Fire Assay	0.06
LPRC0023	3	4	Fire Assay	0.038
LPRC0023	4	5	Fire Assay	0.019
LPRC0023	5	6	Fire Assay	0.014
LPRC0023	6	7	Fire Assay	0.01
LPRC0023	7	8	Fire Assay	0.021
LPRC0023	8	9	Fire Assay	0.011
LPRC0023	9	10	Fire Assay	0.006
LPRC0023	10	11	Fire Assay	0.009
LPRC0023	11	12	Fire Assay	0.017
LPRC0023	12	13	Fire Assay	0.008
LPRC0023	13	14	Fire Assay	0.027
LPRC0023	14	15	Fire Assay	0.1
LPRC0023	15	16	Fire Assay	0.01
LPRC0023	16	17	Fire Assay	0.011
LPRC0023	17	18	Fire Assay	0.006

==> picture [135 x 29] intentionally omitted <==

23

LPRC0023	18	19	Fire Assay	0.006
LPRC0023	18	19	Fire Assay	0.006	DUPLICATE
LPRC0023	19	20	Fire Assay	X
LPRC0023	20	21	Screen Fire Assay	0.02
LPRC0023	21	22	Screen Fire Assay	0.02
LPRC0023	22	23	Screen Fire Assay	0.01
LPRC0023	23	24	Screen Fire Assay	0.03
LPRC0023	24	25	Screen Fire Assay	0.02
LPRC0023	25	26	Screen Fire Assay	0.03
LPRC0023	26	27	Fire Assay	X
LPRC0023	27	28	Fire Assay	0.006
LPRC0023	28	29	Fire Assay	0.189
LPRC0023	29	30	Fire Assay	0.739
LPRC0023	30	31	Fire Assay	0.014
LPRC0023	31	32	Fire Assay	X
LPRC0023	32	33	Fire Assay	0.123
LPRC0023	33	34	Screen Fire Assay	0.005
LPRC0023	34	35	Screen Fire Assay	0.577
LPRC0023	35	36	Screen Fire Assay	0.582
LPRC0023	36	37	Screen Fire Assay	0.206
LPRC0023			Fire Assay	X	STANDARD - GL6912-2
LPRC0023	37	38	Screen Fire Assay	6.975
LPRC0023	38	39	Screen Fire Assay	2.278
LPRC0023	39	40	Screen Fire Assay	0.343
LPRC0023	40	41	Screen Fire Assay	0.34
LPRC0023	41	42	Screen Fire Assay	1.545
LPRC0023	42	43	Screen Fire Assay	0.165
LPRC0023	43	44	Screen Fire Assay	0.051
LPRC0023	44	45	Fire Assay	0.209
LPRC0023	45	46	Fire Assay	0.074
LPRC0023	46	47	Fire Assay	0.325
LPRC0023	47	48	Fire Assay	0.037
LPRC0023	48	49	Fire Assay	0.085
LPRC0023	49	50	Fire Assay	0.053
LPRC0023	50	51	Fire Assay	0.12
LPRC0023	51	52	Fire Assay	0.056
LPRC0023	52	53	Fire Assay	0.018
LPRC0023	53	54	Fire Assay	0.105
LPRC0023	54	55	Fire Assay	0.105
LPRC0023	55	56	Fire Assay	0.17
LPRC0023	55	56	Fire Assay	0.011	DUPLICATE
LPRC0023	56	57	Fire Assay	0.047
LPRC0023	57	58	Fire Assay	0.278
LPRC0023	58	59	Fire Assay	0.204

==> picture [135 x 29] intentionally omitted <==

24

LPRC0023	59	60	Fire Assay	0.175
LPRC0023	0	1	Fire Assay	0.108
LPRC0024	1	2	Fire Assay	0.146
LPRC0024	2	3	Fire Assay
LPRC0024	3	4	Fire Assay
LPRC0024	4	5	Fire Assay
LPRC0024	5	6	Fire Assay	0.109
LPRC0024	5	6	Fire Assay	0.098	DUPLICATE
LPRC0024	6	7	Fire Assay	0.056
LPRC0024	7	8	Fire Assay	0.021
LPRC0024	8	9	Fire Assay	0.02
LPRC0024	9	10	Fire Assay	0.01
LPRC0024	10	11	Fire Assay	0.015
LPRC0024	11	12	Fire Assay	0.009
LPRC0024	12	13	Fire Assay	0.016
LPRC0024	13	14	Fire Assay	0.014
LPRC0024	14	15	Fire Assay	0.007
LPRC0024	15	16	Fire Assay	0.008
LPRC0024	16	17	Fire Assay	0.008
LPRC0024	17	18	Fire Assay	X
LPRC0024	18	19	Fire Assay	0.009
LPRC0024	19	20	Fire Assay	0.024
LPRC0024	20	21	Fire Assay	0.006
LPRC0024	21	22	Fire Assay	X
LPRC0024	22	23	Fire Assay	0.02
LPRC0024	23	24	Fire Assay	0.011
LPRC0024	24	25	Fire Assay	0.008
LPRC0024	25	26	Fire Assay	0.007
LPRC0024	26	27	Fire Assay	X
LPRC0024	27	28	Fire Assay	0.076
LPRC0024	28	29	Fire Assay	0.016
LPRC0024	29	30	Fire Assay	0.024
LPRC0024	30	31	Fire Assay	0.008
LPRC0024	31	32	Fire Assay	0.016
LPRC0024	32	33	Fire Assay	0.022
LPRC0024	33	34	Fire Assay	0.016
LPRC0024			Fire Assay	12.474	STANDARD - OREAS 229b
LPRC0024	34	35	Fire Assay	0.039
LPRC0024	35	36	Fire Assay	0.024
LPRC0024	36	37	Fire Assay	0.016
LPRC0024	37	38	Fire Assay	0.015
LPRC0024	38	39	Fire Assay	0.01
LPRC0024	39	40	Fire Assay	0.042
LPRC0024	40	41	Fire Assay	0.048

==> picture [135 x 29] intentionally omitted <==

25

LPRC0024	41	42	Fire Assay	0.337
LPRC0024	42	43	Fire Assay	0.121
LPRC0024	43	44	Fire Assay	0.12
LPRC0024	44	45	Fire Assay	0.027
LPRC0024	45	46	Fire Assay	0.013
LPRC0024	46	47	Fire Assay	0.019
LPRC0024	47	48	Fire Assay	0.116
LPRC0024	48	49	Screen Fire Assay	0.04
LPRC0024	49	50	Screen Fire Assay	X
LPRC0024	50	51	Screen Fire Assay	X
LPRC0024	51	52	Screen Fire Assay	0.07
LPRC0024	52	53	Screen Fire Assay	0.95
LPRC0024	53	54	Screen Fire Assay	2.39
LPRC0024	54	55	Screen Fire Assay	0.33
LPRC0024	55	56	Screen Fire Assay	0.19
LPRC0024	56	57	Screen Fire Assay	0.21
LPRC0024	57	58	Screen Fire Assay	0.05
LPRC0024	58	59	Screen Fire Assay	8.47
LPRC0024	59	60	Screen Fire Assay	3.47
LPRC0024	60	61	Screen Fire Assay	0.38
LPRC0024			Fire Assay	0.524	STANDARD - G311-1
LPRC0024	61	62	Screen Fire Assay	1.94
LPRC0024	62	63	Screen Fire Assay	1.34
LPRC0024	63	64	Screen Fire Assay	1.62
LPRC0024	64	65	Screen Fire Assay	0.23
LPRC0024	65	66	Fire Assay	0.25
LPRC0024	66	67	Fire Assay	0.18
LPRC0024	67	68	Fire Assay	0.13
LPRC0024	68	69	Fire Assay	0.06
LPRC0024	69	70	Fire Assay	0.44
LPRC0024	70	71	Fire Assay	0.18
LPRC0024	71	72	Fire Assay	0.11
LPRC0024	72	73	Fire Assay	0.1
LPRC0024	73	74	Fire Assay	0.04
LPRC0024	74	75	Fire Assay	0.05
LPRC0024	75	76	Fire Assay	0.01
LPRC0024	76	77	Fire Assay	0.08
LPRC0024	77	78	Fire Assay	0.03
LPRC0024	0	1	Fire Assay	0.129
LPRC0025	1	2	Fire Assay	0.121
LPRC0025	2	3	Fire Assay	0.053
LPRC0025	3	4	Fire Assay	0.039
LPRC0025	4	5	Fire Assay	0.028
LPRC0025	5	6	Fire Assay	0.04

==> picture [135 x 29] intentionally omitted <==

26

LPRC0025	5	6	Fire Assay	0.045	DUPLICATE
LPRC0025	6	7	Fire Assay	0.062
LPRC0025	7	8	Fire Assay	0.035
LPRC0025	8	9	Fire Assay	0.086
LPRC0025	9	10	Fire Assay	0.371
LPRC0025	10	11	Fire Assay	0.065
LPRC0025	11	12	Fire Assay	0.1
LPRC0025	12	13	Fire Assay	0.134
LPRC0025	13	14	Fire Assay	0.059
LPRC0025	14	15	Fire Assay	0.018
LPRC0025	15	16	Fire Assay	0.026
LPRC0025	16	17	Fire Assay	0.047
LPRC0025	17	18	Screen Fire Assay	0.06
LPRC0025	18	19	Screen Fire Assay	0.32
LPRC0025	19	20	Screen Fire Assay	0.02
LPRC0025	20	21	Screen Fire Assay	0.03
LPRC0025	21	22	Screen Fire Assay	0.02
LPRC0025	22	23	Fire Assay	0.015
LPRC0025	23	24	Fire Assay	0.007
LPRC0025			Fire Assay	0.522	STANDARD - G311-1
LPRC0025	24	25	Fire Assay	0.014
LPRC0025	25	26	Fire Assay	0.083
LPRC0025	26	27	Fire Assay	X
LPRC0025	27	28	Fire Assay	X
LPRC0025	28	29	Fire Assay	X
LPRC0025	29	30	Fire Assay	0.012
LPRC0025	0	1	Fire Assay	0.037
LPRC0026	1	2	Fire Assay	0.101
LPRC0026	2	3	Fire Assay	0.065
LPRC0026	3	4	Fire Assay	0.046
LPRC0026	4	5	Fire Assay	0.048
LPRC0026	5	6	Fire Assay	0.028
LPRC0026	6	7	Fire Assay	0.03
LPRC0026	7	8	Fire Assay	0.049
LPRC0026	8	9	Fire Assay	0.027
LPRC0026	9	10	Fire Assay	0.021
LPRC0026	10	11	Fire Assay	0.047
LPRC0026	11	12	Fire Assay	0.086
LPRC0026	12	13	Fire Assay	0.044
LPRC0026	13	14	Fire Assay	0.016
LPRC0026	13	14	Fire Assay	0.019	DUPLICATE
LPRC0026	14	15	Fire Assay	0.02
LPRC0026	15	16	Fire Assay	0.019
LPRC0026	16	17	Fire Assay	0.005

==> picture [135 x 29] intentionally omitted <==

27

LPRC0026	17	18	Fire Assay	0.057
LPRC0026	18	19	Fire Assay	0.025
LPRC0026	19	20	Fire Assay	0.016
LPRC0026	20	21	Fire Assay	0.018
LPRC0026	21	22	Fire Assay	0.088
LPRC0026	22	23	Screen Fire Assay	0.07
LPRC0026	22	23	Screen Fire Assay	0.16	DUPLICATE
LPRC0026	23	24	Screen Fire Assay	0.08
LPRC0026	24	25	Screen Fire Assay	1.44
LPRC0026	25	26	Screen Fire Assay	1.11
LPRC0026	26	27	Screen Fire Assay	0.19
LPRC0026	27	28	Screen Fire Assay	9.41
LPRC0026	28	29	NS		VOID - NO SAMPLE
LPRC0026	29	30	Screen Fire Assay	2.87
LPRC0026	30	31	Screen Fire Assay	0.22
LPRC0026	31	32	Screen Fire Assay	5.22
LPRC0026	32	33	Fire Assay	0.2
LPRC0026	33	34	Fire Assay	0.008
LPRC0026	34	35	Fire Assay	X
LPRC0026	35	36	Fire Assay	0.006
LPRC0026	36	37	Fire Assay	0.072
LPRC0026	37	38	Fire Assay	0.029
LPRC0026	38	39	Fire Assay	0.056
LPRC0026	39	40	Fire Assay	0.056
LPRC0026	0	1	Fire Assay	0.107
LPRC0027	1	2	Fire Assay	0.072
LPRC0027	2	3	Fire Assay	0.053
LPRC0027	3	4	Fire Assay	0.113
LPRC0027	4	5	Fire Assay	0.072
LPRC0027	5	6	Fire Assay	0.022
LPRC0027	6	7	Fire Assay	0.025
LPRC0027	7	8	Fire Assay	0.018
LPRC0027	8	9	Fire Assay	0.035
LPRC0027	9	10	Fire Assay	0.016
LPRC0027	10	11	Fire Assay	0.017
LPRC0027			Fire Assay	X	STANDARD - GL6912-2
LPRC0027	11	12	Fire Assay	0.014
LPRC0027	12	13	Fire Assay	0.028
LPRC0027	13	14	Fire Assay	0.057
LPRC0027	14	15	Fire Assay	0.07
LPRC0027	15	16	Fire Assay	1.606
LPRC0027	16	17	Fire Assay	1.041
LPRC0027	17	18	Fire Assay	0.935
LPRC0027	18	19	Fire Assay	1.213

==> picture [135 x 29] intentionally omitted <==

28

LPRC0027	19	20	Fire Assay	0.164
LPRC0027	20	21	Screen Fire Assay	0.39
LPRC0027	21	22	Screen Fire Assay	0.03
LPRC0027	22	23	Screen Fire Assay	X
LPRC0027	23	24	Screen Fire Assay	0.04
LPRC0027	24	25	Screen Fire Assay	0.03
LPRC0027	25	26	Fire Assay	0.786
LPRC0027	26	27	Fire Assay	0.201
LPRC0027	27	28	Fire Assay	0.008
LPRC0027	28	29	Fire Assay	X
LPRC0027	29	30	Fire Assay	0.005
LPRC0027	30	31	Fire Assay	0.006
LPRC0027	30	31	Fire Assay	X	DUPLICATE
LPRC0027	31	32	Fire Assay	X
LPRC0027	32	33	Fire Assay	0.007
LPRC0027	33	34	Fire Assay	X
LPRC0027	34	35	Fire Assay	X
LPRC0027	35	36	Fire Assay	X
LPRC0027	0	1	Fire Assay	0.021
LPRC0028	1	2	Fire Assay	0.1
LPRC0028	2	3	Fire Assay	0.055
LPRC0028	3	4	Fire Assay	0.033
LPRC0028	4	5	Fire Assay	0.034
LPRC0028	5	6	Fire Assay	0.028
LPRC0028	6	7	Fire Assay	0.018
LPRC0028	7	8	Fire Assay	0.012
LPRC0028	8	9	Fire Assay	0.009
LPRC0028	9	10	Fire Assay	0.007
LPRC0028	10	11	Fire Assay	0.008
LPRC0028	11	12	Fire Assay	0.008
LPRC0028	12	13	Fire Assay	0.005
LPRC0028			Fire Assay	0.257	STANDARD - G311-3
LPRC0028	13	14	Fire Assay	0.007
LPRC0028	14	15	Fire Assay	0.007
LPRC0028	15	16	Fire Assay	0.009
LPRC0028	16	17	Fire Assay	0.01
LPRC0028	17	18	Fire Assay	0.009
LPRC0028	18	19	Fire Assay	0.007
LPRC0028	19	20	Fire Assay	0.008
LPRC0028	20	21	Fire Assay	0.011
LPRC0028	21	22	Fire Assay	0.009
LPRC0028	22	23	Fire Assay	0.008
LPRC0028	23	24	Fire Assay	0.042
LPRC0028	24	25	Fire Assay	0.034

==> picture [135 x 29] intentionally omitted <==

29

LPRC0028	25	26	Fire Assay	0.016
LPRC0028	26	27	Fire Assay	0.005
LPRC0028	27	28	Fire Assay	0.058
LPRC0028	28	29	Fire Assay	0.275
LPRC0028	29	30	Screen Fire Assay	0.08
LPRC0028	30	31	Screen Fire Assay	0.16
LPRC0028	31	32	Screen Fire Assay	7.71
LPRC0028	32	33	Screen Fire Assay	4.14
LPRC0028	32	33	Screen Fire Assay	4.24	DUPLICATE
LPRC0028	33	34	Screen Fire Assay	1.93
LPRC0028	34	35	Screen Fire Assay	0.99
LPRC0028	35	36	Screen Fire Assay	0.44
LPRC0028	36	37	Screen Fire Assay	0.1
LPRC0028	37	38	Screen Fire Assay	0.02
LPRC0028	38	39	Fire Assay	0.006
LPRC0028	39	40	Fire Assay	0.01
LPRC0028	40	41	Fire Assay	X
LPRC0028	41	42	Fire Assay	X
LPRC0028	41	42	Fire Assay	X	DUPLICATE
LPRC0029	0	1	Fire Assay	0.138
LPRC0029	1	2	Fire Assay	0.044
LPRC0029	2	3	Fire Assay	0.032
LPRC0029	3	4	Fire Assay	0.017
LPRC0029	4	5	Fire Assay	0.011
LPRC0029	5	6	Fire Assay	0.008
LPRC0029	6	7	Fire Assay	0.01
LPRC0029	7	8	Fire Assay	0.008
LPRC0029	8	9	Fire Assay	0.026
LPRC0029	9	10	Fire Assay	X
LPRC0029	10	11	Fire Assay	X
LPRC0029	11	12	Fire Assay	0.01
LPRC0029	12	13	Fire Assay	0.008
LPRC0029	13	14	Fire Assay	0.008
LPRC0029	14	15	Fire Assay	0.05
LPRC0029	15	16	Fire Assay	0.011
LPRC0029	16	17	Fire Assay	0.01
LPRC0029	17	18	Fire Assay	X
LPRC0029	18	19	Fire Assay	X
LPRC0029	19	20	Fire Assay	X
LPRC0029	20	21	Fire Assay	X
LPRC0029	21	22	Fire Assay	X
LPRC0029	22	23	Fire Assay	X
LPRC0029	23	24	Fire Assay	X
LPRC0029	24	25	Fire Assay	X

==> picture [135 x 29] intentionally omitted <==

30

LPRC0029	25	26	Fire Assay	X
LPRC0029	26	27	Fire Assay	0.008
LPRC0029	27	28	Fire Assay	X
LPRC0029			Fire Assay	12.376	STANDARD - OREAS 229b
LPRC0029	28	29	Fire Assay	0.009
LPRC0029	29	30	Fire Assay	X
LPRC0029	0	1	Fire Assay	0.01
LPRC0030	1	2	Fire Assay	0.035
LPRC0030	2	3	Fire Assay	0.03
LPRC0030	3	4	Fire Assay	0.026
LPRC0030	4	5	Fire Assay	0.021
LPRC0030	5	6	Fire Assay	0.015
LPRC0030	6	7	Fire Assay	0.012
LPRC0030	7	8	Fire Assay	0.031
LPRC0030	8	9	Fire Assay	0.047
LPRC0030	9	10	Fire Assay	0.015
LPRC0030	10	11	Fire Assay	0.011
LPRC0030	11	12	Fire Assay	0.011
LPRC0030	12	13	Fire Assay	0.009
LPRC0030	13	14	Fire Assay	0.01
LPRC0030	14	15	Fire Assay	0.006
LPRC0030	15	16	Fire Assay	0.023
LPRC0030	16	17	Fire Assay	X
LPRC0030	17	18	Fire Assay	X
LPRC0030	17	18	Fire Assay	0.006	DUPLICATE
LPRC0030	18	19	Fire Assay	X
LPRC0030	19	20	Fire Assay	0.016
LPRC0030	20	21	Fire Assay	X
LPRC0030	21	22	Fire Assay	0.007
LPRC0030	22	23	Fire Assay	0.005
LPRC0030	23	24	Fire Assay	0.009
LPRC0030	24	25	Fire Assay	0.035
LPRC0030	25	26	Fire Assay	3.093
LPRC0030	26	27	Fire Assay	2.736
LPRC0030	27	28	Fire Assay	0.152
LPRC0030	28	29	Screen Fire Assay	0.3
LPRC0030	29	30	Screen Fire Assay	3.03
LPRC0030	30	31	Screen Fire Assay	1.3
LPRC0030	31	32	Screen Fire Assay	0.44
LPRC0030	32	33	Fire Assay	0.01
LPRC0030	33	34	Fire Assay	0.019
LPRC0030	34	35	Fire Assay	0.019
LPRC0030	35	36	Fire Assay	0.006
LPRC0030			Fire Assay	X	STANDARD - GL6912-2

==> picture [135 x 29] intentionally omitted <==

31

LPRC0030	36	37	Fire Assay	X
LPRC0030	37	38	Fire Assay	0.038
LPRC0030	38	39	Fire Assay	0.007
LPRC0030	39	40	Fire Assay	0.006
LPRC0030	0	1	Fire Assay	0.104
LPRC0031	1	2	Fire Assay	0.095
LPRC0031	2	3	Fire Assay	0.031
LPRC0031	3	4	Fire Assay	0.031
LPRC0031	4	5	Fire Assay	0.03
LPRC0031	5	6	Fire Assay	0.148
LPRC0031	6	7	Fire Assay	0.011
LPRC0031	7	8	Fire Assay	0.015
LPRC0031	8	9	Fire Assay	0.008
LPRC0031	9	10	Fire Assay	0.193
LPRC0031	10	11	Fire Assay	0.677
LPRC0031	11	12	Fire Assay	0.047
LPRC0031	12	13	Screen Fire Assay	0.32
LPRC0031	13	14	Screen Fire Assay	0.25
LPRC0031	14	15	Screen Fire Assay	0.4
LPRC0031	14	15	Screen Fire Assay	0.36	DUPLICATE
LPRC0031	15	16	Screen Fire Assay	0.87
LPRC0031	16	17	Fire Assay	0.027
LPRC0031	17	18	Fire Assay	0.111
LPRC0031	18	19	Fire Assay	0.008
LPRC0031	19	20	Fire Assay	X
LPRC0031	20	21	Fire Assay	0.016
LPRC0031	21	22	Fire Assay	0.007
LPRC0031	22	23	Fire Assay	0.006
LPRC0031	23	24	Fire Assay	X
LPRC0031	24	25	Fire Assay	X
LPRC0031	24	25	Fire Assay	0.005	DUPLICATE
LPRC0031	25	26	Fire Assay	X
LPRC0031	26	27	Fire Assay	X
LPRC0031	27	28	Fire Assay	0.005
LPRC0031	28	29	Fire Assay	X
LPRC0031	29	30	Fire Assay	X
LPRC0031	0	1	Fire Assay	0.141
LPRC0032	1	2	Fire Assay	0.143
LPRC0032	2	3	Fire Assay	0.03
LPRC0032	3	4	Fire Assay	0.021
LPRC0032	4	5	Fire Assay	0.031
LPRC0032	5	6	Fire Assay	0.015
LPRC0032	6	7	Fire Assay	0.014
LPRC0032	7	8	Fire Assay	0.007

==> picture [135 x 29] intentionally omitted <==

32

LPRC0032	8	9	Fire Assay	0.012
LPRC0032	9	10	Fire Assay	0.011
LPRC0032	10	11	Fire Assay	0.007
LPRC0032	11	12	Fire Assay	0.005
LPRC0032	12	13	Fire Assay	0.011
LPRC0032	13	14	Fire Assay	X
LPRC0032	14	15	Fire Assay	0.008
LPRC0032	15	16	Fire Assay	0.016
LPRC0032	16	17	Fire Assay	0.012
LPRC0032	17	18	Fire Assay	0.02
LPRC0032	18	19	Fire Assay	0.026
LPRC0032	19	20	Fire Assay	0.01
LPRC0032	20	21	Fire Assay	0.006
LPRC0032	21	22	Fire Assay	0.014
LPRC0032	22	23	Fire Assay	0.008
LPRC0032			Fire Assay	0.251	STANDARD G311-3
LPRC0032	23	24	Fire Assay	0.038
LPRC0032	24	25	Fire Assay	0.04
LPRC0032	25	26	Fire Assay	0.086
LPRC0032	26	27	Fire Assay	3.747
LPRC0032	27	28	Screen Fire Assay	1
LPRC0032	28	29	Screen Fire Assay	8.29
LPRC0032	29	30	Screen Fire Assay	1.59
LPRC0032	30	31	Screen Fire Assay	3.4
LPRC0032	31	32	Screen Fire Assay	4.5
LPRC0032	32	33	Screen Fire Assay	3.26
LPRC0032	33	34	Screen Fire Assay	0.53
LPRC0032	34	35	Screen Fire Assay	0.8
LPRC0032	35	36	Screen Fire Assay	4.96
LPRC0032	36	37	Screen Fire Assay	0.06
LPRC0032	37	38	Screen Fire Assay	0.02
LPRC0032	38	39	Screen Fire Assay	0.07
LPRC0032	39	40	Screen Fire Assay	0.01
LPRC0032	40	41	Fire Assay	0.007
LPRC0032	41	42	Fire Assay	0.029
LPRC0032	42	43	Fire Assay	0.022
LPRC0032	42	43	Fire Assay	0.033	DUPLICATE
LPRC0032	43	44	Fire Assay	X
LPRC0032	44	45	Fire Assay	X
LPRC0032	45	46	Fire Assay	0.005
LPRC0032	46	47	Fire Assay	0.021
LPRC0032	47	48	Fire Assay	0.022
LPRC0033	0	1	Fire Assay	0.046
LPRC0033	1	2	Fire Assay	0.078

==> picture [135 x 29] intentionally omitted <==

33

LPRC0033	1	2	Fire Assay	0.076	DUPLICATE
LPRC0033	2	3	Fire Assay	0.069
LPRC0033	3	4	Fire Assay	0.077
LPRC0033	4	5	Fire Assay	0.021
LPRC0033	5	6	Fire Assay	0.041
LPRC0033	6	7	Fire Assay	0.08
LPRC0033	7	8	Fire Assay	0.015
LPRC0033	8	9	Fire Assay	0.009
LPRC0033	9	10	Fire Assay	0.008
LPRC0033	10	11	Fire Assay	X
LPRC0033	11	12	Fire Assay	0.011
LPRC0033	11	12	Fire Assay	0.013	DUPLICATE
LPRC0033	12	13	Fire Assay	0.01
LPRC0033	13	14	Fire Assay	0.009
LPRC0033	14	15	Fire Assay	0.008
LPRC0033	15	16	Fire Assay	0.008
LPRC0033	16	17	Fire Assay	0.009
LPRC0033	17	18	Fire Assay	0.02
LPRC0033	18	19	Fire Assay	0.015
LPRC0033	19	20	Fire Assay	X
LPRC0033	20	21	Fire Assay	0.008
LPRC0033	21	22	Fire Assay	0.007
LPRC0033	22	23	Fire Assay	X
LPRC0033	23	24	Fire Assay	0.047
LPRC0033	24	25	Fire Assay	0.013
LPRC0033	25	26	Fire Assay	0.051
LPRC0033	26	27	Fire Assay	0.032
LPRC0033	27	28	Fire Assay	0.012
LPRC0033	28	29	Fire Assay	0.007
LPRC0033	29	30	Fire Assay	0.011
LPRC0033	30	31	Fire Assay	0.017
LPRC0033	31	32	Fire Assay	X
LPRC0033	32	33	Fire Assay	X
LPRC0033	33	34	Fire Assay	X
LPRC0033	34	35	Fire Assay	X
LPRC0033	35	36	Fire Assay	0.072
LPRC0033	36	37	Fire Assay	0.402
LPRC0033	37	38	Fire Assay	0.01
LPRC0033	38	39	Fire Assay	X
LPRC0033	39	40	Fire Assay	X
LPRC0033			Fire Assay	X	STANDARD GL6912-2
LPRC0033	40	41	Fire Assay	0.011
LPRC0033	41	42	Fire Assay	0.007
LPRC0033	42	43	Screen Fire Assay	0.06

==> picture [135 x 29] intentionally omitted <==

34

LPRC0033	43	44	Screen Fire Assay	0.62
LPRC0033	44	45	Screen Fire Assay	0.05
LPRC0033	45	46	Screen Fire Assay	0.14
LPRC0033	46	47	Screen Fire Assay	0.01
LPRC0033	47	48	Fire Assay	0.261
LPRC0033	48	49	Fire Assay	X
LPRC0033	49	50	Fire Assay	0.326
LPRC0033	50	51	Fire Assay	0.026
LPRC0033	51	52	Fire Assay	0.016
LPRC0033	52	53	Fire Assay	X
LPRC0033	53	54	Fire Assay	X
LPRC0033	54	55	Fire Assay	0.006
LPRC0033	55	56	Fire Assay	0.008
LPRC0033	56	57	Fire Assay	0.016
LPRC0033	57	58	Fire Assay	0.016
LPRC0033	58	59	Fire Assay	0.009
LPRC0033	59	60	Fire Assay	0.006
LPRC0033	59	60	Fire Assay	X	DUPLICATE
LPRC0033	0	1	Fire Assay	0.089

==> picture [135 x 29] intentionally omitted <==

35