File: Attachment 2024-11-13-KLM-911 SHOWING XRF news release third batch.pdf

Kermode Reports Third Batch of XRF Results for 911 Showing at Mount Sicker

Victoria, British Columbia - (November 13, 2024) - Kermode Resources Ltd. (TSXV: KLM) ("Kermode" or the "Company") reports the results of XRF analysis of surface samples from the 911 Showing area at the Mount Sicker project. This news release reports the results for 11 samples with detailed descriptions provided below.

The sampling methodology for this batch of results entails additional selective sampling at the 911 Showing covering an area of approximately 60 metres, and selective sampling of a new area approximately 1 kilometre along strike at a slightly lower elevation.

Sample ID Copper (% Cu) 911-13 2.93% 911-14 1.02% 911-15 0.60% 911-41 1.82% 911-42 11.83% 911-43 15.15% 911-44 1.07% 911-45 1.58% 911-46 13.94% 911-47 8.62% 911-48 7.56%

Rock Sample Details for Samples from Copper Canyon

ID DATE EASTING NORTHING ELEVATION SAMPL Details (10N) (ZONE 10) (ASL) E TYPE 911-13 05-11-2024 445314 5413084 581m Lower outcrop, 2m wide quartz sulphide vein with 911-14 05-11-2024 interwoven quartz and sulphides/schists (schists 911-15 05-11-2024 445305 5413096 580m have higher concentration of sulphides than 445317 5413067 583m Grab quartz vein). Sample contained 25% pyrite and (Bedrock) 10% chalcopyrite, 2% sphalerite.

This may be the "Sicker One" Minfile occurrence based on an old shaft 4-5m deep, which is

partially exposed where the road cuts through the shaft. Sample taken from a quartz vein up to 1m wide of burgundy stained quartz with minor

chalcopyrite up to 7% disseminated. Hosted in schistose volcanics. Vein is adjacent to a 2m wide

sulphide zone which appears to have been Grab narrowly missed by the exploration shaft. Some

(Bedrock) minor sphalerite noticed up to 3%.

Upper outcrop in small old quarry which has sulphides, quartz and yellow/orange/burgundy

stained schists. Small sulphide lenses/stringers Grab which contain 10% pyrite, 3-4% chalcopyrite and

(Bedrock) 1% sphalerite. 911-41 05-11-2024 444643 5413398 621m Loose, coarse pyrite falling out of the 911-42 05-11-2024 444626 5413401 623m bedrock/outcrop. So loose you can dig with a 911-43 05-11-2024 444618 5413403 623m shovel or scoop handfuls of sulphides. Bedrock 911-44 06-11-2024 445307 5413085 583m aso brittle here. Sample was taken of loose 911-45 06-11-2024 445514 5412925 543m material containing mostly coarse but some fine 911-46 06-11-2024 444612 5413404 623m Grab sulphides with 80% pyrite and 7-9% chalcopyrite 911-47 06-11-2024 444590 5413410 626m (Bedrock) which is oxidized dark blue. 911-48 06-11-2024 444607 5413405 624m Stringer pyrite and chalcopyrite veining in chloritic schists. Sample contained 10% pyrite and Grab 30-35% chalcopyrite with areas of dark blue (Bedrock) oxidation on chalcopyrite.

Chloritic schists hosting thick stringers of chalcopyrite. Sample contained 45% chalcopyrite Grab in bands up to 5cm wide between foliations of (Bedrock) schists. Upper outcrop, 2m wide quartz sulphide vein with interwoven quartz and sulphides/schists (schists have higher concentrations of sulphides than Grab vein). On average, the sample contains 20-22% (Bedrock) pyrite and 5-8% chalcopyrite, possible sphalerite.

10cm stringer/vein of sulphides from quarry at roadside. Hosted in chloritic schists stained Grab yellow and burgundy. Sample contained 5-7% (Bedrock) chalcopyrite in a coarse grained matrix of pyrite. From the lower vein area, a large chunk of chalcopyrite in quartz and silicified schist. Large quartz stringer or vein up to 20cm wide. Just Grab outside the main lower vein area. 35-40% (Bedrock) chalcopyrite, under 5% pyrite.

Massive pyrite with iridescent and dark blue oxidized chalcopyrite. Total sulphides at 90%. Grab Lower vein area. Chalcopyrite at 25-30%. (Bedrock) 290W/58 dip.

Coarse to fine massive pyrite with patches of dark blue oxidized chalcopyrite. Total sulphides at Grab 90%. Lower vein area. Chalcopyrite at 25%. (Bedrock) 290W/56 dip.

Note that all samples were collected by Justin Deveault and Justin McNutt from 911 Exploration Corp.

Additional information on the Mount Sicker project is available online here, https://drive.google.com/drive/folders/1j4Zogi5bZ4NZYZHHXAa948PjnExBvApE

Qualified Person The technical information in this news release has been reviewed and approved by Mr. Robert Carrington, Professional Geologist and Professional Engineering Geologist, a Qualified Person as defined in Canadian NI 43-101 responsible for the scientific and technical information contained herein under National Instrument 43-101 standards. Mr. Carrington is not independent of Kermode as he has optioned the Tonya project and Rye Patch project in Nevada to Kermode and conducted exploration work under a shares-for-services basis. QA/QC Statement The results reported here were prepared by using an Olympus Delta portable XRF (Model DS 6500CC) using industry-standard chain of custody procedures with all samples. The XRF operator named Kelly Funk completed the XRF analysis in October 2024. Mr Funk is not independent of Kermode as he is part of the vendor group for the property purchase option agreement on Mount Sicker and other projects, plus he is compensated under a shares-for-services agreement for the costs of the XRF analysis.

The XRF was calibrated prior to each test as follows. At each startup, a calibration coin was analyzed, and subsequent analysis was only performed when a pass was obtained, which was calculated internally by the XRF instrument. The XRF unit was set to geochemical mode and a full 200 second test was run to determine copper content. While the instrument detects many elements, only copper was tested. The XRF analyzes only a small portion of the sample, so half the sample was crushed to pass an 80-mesh screen before testing. During analysis of the samples by handheld XRF, non-blind control samples were analysed to monitor the XRF instrument calibration and performance. A correction factor for all base metals was applied to the raw data. The correction factor was determined by analyzing samples that had previously been analyzed at a commercial laboratory. These rock samples were of varying concentrations and analyzed by the handheld XRF using the method described above. The portable XRF is accurate to within a 5% error for copper content. We did not use the portable XRF to determine accurate readings for other elements.

About Kermode Kermode is a junior mining company hunting for exploration opportunities around the world.

On Behalf of the Board of Directors, KERMODE RESOURCES LTD

"Peter Bell" President/CEO

For further information, please contact

Tel: 1-250-588-6939

Email: peterbellmining@gmail.com

Website: https://linktr.ee/kermoderesources

Neither the TSX Venture Exchange nor its Regulation Services Provider accepts responsibility for the adequacy or accuracy of this release.

Forward-Looking Statements This news release contains statements that constitute "forward-looking statements" within the meaning of applicable Canadian and United States securities legislation. Such forward-looking statements involve risks that may cause Kermode's actual results to differ materially from anticipated results. Forward-looking statements in this document include results, analyses and interpretations of our exploration programs, geological and mineralization interpretations and the plans, results, costs, and timing thereof. Although Kermode believes the forward-looking information contained in this news release is reasonably based, forward-looking statements involve uncertainty. The forward-looking information contained in this news release represents the expectations of the Company as of the date of this news release and, accordingly, is subject to change after such date.

File: '\\swfile\EmailIn\20241113 065012 Attachment 2024-11-13-KLM-911 SHOWING XRF news release third batch.docx'

Kermode Reports Third Batch of XRF Results for 911 Showing at Mount Sicker

Victoria, British Columbia - (November 13, 2024) - Kermode Resources Ltd. (TSXV: KLM) ("Kermode" or the "Company") reports the results of XRF analysis of surface samples from the 911 Showing area at the Mount Sicker project. This news release reports the results for 11 samples with detailed descriptions provided below.

The sampling methodology for this batch of results entails additional selective sampling at the 911 Showing covering an area of approximately 60 metres, and selective sampling of a new area approximately 1 kilometre along strike at a slightly lower elevation.

Sample ID

Copper (% Cu)

911-13

2.93%

911-14

1.02%

911-15

0.60%

911-41

1.82%

911-42

11.83%

911-43

15.15%

911-44

1.07%

911-45

1.58%

911-46

13.94%

911-47

8.62%

911-48

7.56%

Rock Sample Details for Samples from Copper Canyon

ID

DATE

EASTING

(10N)

NORTHING

(ZONE 10)

ELEVATION (ASL)

SAMPLE TYPE

Details

911-13

05-11-2024

445314

5413084

581m

Grab (Bedrock)

Lower outcrop, 2m wide quartz sulphide vein with interwoven quartz and sulphides/schists (schists have higher concentration of sulphides than quartz vein). Sample contained 25% pyrite and 10% chalcopyrite, 2% sphalerite.

911-14

05-11-2024

445305

5413096

580m

Grab (Bedrock)

This may be the "Sicker One" Minfile occurrence based on an old shaft 4-5m deep, which is partially exposed where the road cuts through the shaft. Sample taken from a quartz vein up to 1m wide of burgundy stained quartz with minor chalcopyrite up to 7% disseminated. Hosted in schistose volcanics. Vein is adjacent to a 2m wide sulphide zone which appears to have been narrowly missed by the exploration shaft. Some minor sphalerite noticed up to 3%.

911-15

05-11-2024

445317

5413067

583m

Grab (Bedrock)

Upper outcrop in small old quarry which has sulphides, quartz and yellow/orange/burgundy stained schists. Small sulphide lenses/stringers which contain 10% pyrite, 3-4% chalcopyrite and 1% sphalerite.

911-41

05-11-2024

444643

5413398

621m

Grab (Bedrock)

Loose, coarse pyrite falling out of the bedrock/outcrop. So loose you can dig with a shovel or scoop handfuls of sulphides. Bedrock aso brittle here. Sample was taken of loose material containing mostly coarse but some fine sulphides with 80% pyrite and 7-9% chalcopyrite which is oxidized dark blue.

911-42

05-11-2024

444626

5413401

623m

Grab (Bedrock)

Stringer pyrite and chalcopyrite veining in chloritic schists. Sample contained 10% pyrite and 30-35% chalcopyrite with areas of dark blue oxidation on chalcopyrite.

911-43

05-11-2024

444618

5413403

623m

Grab (Bedrock)

Chloritic schists hosting thick stringers of chalcopyrite. Sample contained 45% chalcopyrite in bands up to 5cm wide between foliations of schists.

911-44

06-11-2024

445307

5413085

583m

Grab (Bedrock)

Upper outcrop, 2m wide quartz sulphide vein with interwoven quartz and sulphides/schists (schists have higher concentrations of sulphides than vein). On average, the sample contains 20-22% pyrite and 5-8% chalcopyrite, possible sphalerite.

911-45

06-11-2024

445514

5412925

543m

Grab (Bedrock)

10cm stringer/vein of sulphides from quarry at roadside. Hosted in chloritic schists stained yellow and burgundy. Sample contained 5-7% chalcopyrite in a coarse grained matrix of pyrite.

911-46

06-11-2024

444612

5413404

623m

Grab (Bedrock)

From the lower vein area, a large chunk of chalcopyrite in quartz and silicified schist. Large quartz stringer or vein up to 20cm wide. Just outside the main lower vein area. 35-40% chalcopyrite, under 5% pyrite.

911-47

06-11-2024

444590

5413410

626m

Grab (Bedrock)

Massive pyrite with iridescent and dark blue oxidized chalcopyrite. Total sulphides at 90%. Lower vein area. Chalcopyrite at 25-30%. 290W/58 dip.

911-48

06-11-2024

444607

5413405

624m

Grab (Bedrock)

Coarse to fine massive pyrite with patches of dark blue oxidized chalcopyrite. Total sulphides at 90%. Lower vein area. Chalcopyrite at 25%. 290W/56 dip.

Note that all samples were collected by Justin Deveault and Justin McNutt from 911 Exploration Corp.

Additional information on the Mount Sicker project is available online here,

https://drive.google.com/drive/folders/1j4Zogi5bZ4NZYZHHXAa948PjnExBvApE

Qualified Person

The technical information in this news release has been reviewed and approved by Mr. Robert Carrington, Professional Geologist and Professional Engineering Geologist, a Qualified Person as defined in Canadian NI 43-101 responsible for the scientific and technical information contained herein under National Instrument 43-101 standards. Mr. Carrington is not independent of Kermode as he has optioned the Tonya project and Rye Patch project in Nevada to Kermode and conducted exploration work under a shares-for-services basis.

QA/QC Statement

The results reported here were prepared by using an Olympus Delta portable XRF (Model DS 6500CC) using industry-standard chain of custody procedures with all samples. The XRF operator named Kelly Funk completed the XRF analysis in October 2024. Mr Funk is not independent of Kermode as he is part of the vendor group for the property purchase option agreement on Mount Sicker and other projects, plus he is compensated under a shares-for-services agreement for the costs of the XRF analysis.

The XRF was calibrated prior to each test as follows. At each startup, a calibration coin was analyzed, and subsequent analysis was only performed when a pass was obtained, which was calculated internally by the XRF instrument. The XRF unit was set to geochemical mode and a full 200 second test was run to determine copper content. While the instrument detects many elements, only copper was tested. The XRF analyzes only a small portion of the sample, so half the sample was crushed to pass an 80-mesh screen before testing. During analysis of the samples by handheld XRF, non-blind control samples were analysed to monitor the XRF instrument calibration and performance. A correction factor for all base metals was applied to the raw data. The correction factor was determined by analyzing samples that had previously been analyzed at a commercial laboratory. These rock samples were of varying concentrations and analyzed by the handheld XRF using the method described above. The portable XRF is accurate to within a 5% error for copper content. We did not use the portable XRF to determine accurate readings for other elements.

About Kermode

Kermode is a junior mining company hunting for exploration opportunities around the world.

On Behalf of the Board of Directors,

KERMODE RESOURCES LTD

"Peter Bell"

President/CEO

For further information, please contact

Tel: 1-250-588-6939

Email: peterbellmining@gmail.com

Website: https://linktr.ee/kermoderesources

Neither the TSX Venture Exchange nor its Regulation Services Provider accepts responsibility for the adequacy or accuracy of this release.

Forward-Looking Statements

This news release contains statements that constitute "forward-looking statements" within the meaning of applicable Canadian and United States securities legislation. Such forward-looking statements involve risks that may cause Kermode's actual results to differ materially from anticipated results. Forward-looking statements in this document include results, analyses and interpretations of our exploration programs, geological and mineralization interpretations and the plans, results, costs, and timing thereof. Although Kermode believes the forward-looking information contained in this news release is reasonably based, forward-looking statements involve uncertainty. The forward-looking information contained in this news release represents the expectations of the Company as of the date of this news release and, accordingly, is subject to change after such date.