mcjtom

An old question/hypothesis (the previous post), but I still haven't satisfied myself. Vanquish is no longer a popular topic, but I wonder if anybody figured out how switching its GB by switching between modes could be taken an advantage of? I tried but I'm still not sure.

My bet is on this one: https://www.questmetaldetectors.com/questpro Chase was concerned with the 92% 'effectiveness' (whatever this actually means) of the USMC one above - with PI and GPR optimised to work in concert to detect landmines - would the Quest hobby VLF even have a chance to be useful on the shrapnel-contaminated mine field under fire, I wonder.

While (probably) not related to the detector in the first post, it's still about mines... There is a picture on top of this article. The detector being used looks to me like a commercial one. Would anybody recognise what model it might be? https://www.economist.com/europe/2023/07/09/sappers-risk-their-lives-to-win-ukraine-back-inch-by-inch?utm_medium=social-media.content.np&utm_source=twitter&utm_campaign=editorial-social&utm_content=discovery.content

I just posted a new topic and it seems that it needs to be approved before being visible to others or if I want to edit it. I haven't seen it before. Is that a new rule? Cheers!

Here is a glowing article about a mine detector that reportedly combines 2 technologies. Does anybody know more about it? Who makes it? Does it work as advertised? Would it be of use outside of the mine detection context? https://asc.army.mil/docs/pubs/alt/current/issue/articles/54_AN-PSS-14_Mine_Detection_System_Offers_Improved_Countermine_Capability_200701.pdf

https://www.theguardian.com/uk-news/2023/may/14/meet-the-real-life-detectorists-of-the-english-countryside

OK, but disregarding the notch segments width differences and just looking at the ID values on any Vanquish model and 600/800, how well those scales correspond to one another? e.g. would a target that rings say 13 on the Vanquish be expected to also ring 13 on 600/800, everything else being equal etc ?

The may have different notching division, but the numerical ID scale is still the same: from -9 to 40.

Not that it's really important, but would the Vanquish ID scale be much different from Nox 800/600? Simon may know as he's been using both frequently.

I'm curious if the new batch of ML detectors has simply doubled the ID scale resolution or has molded it in a different way, stretching things in some places and compressing them in others?

ML (-9 to 40) IDs Legend (1 to 60) IDs On Jeff's ID charts, several objects seem to be the same. It seems to me, looking at the pull tabs, crown cap, and some rings I can recognize, that several of them that are clustered in 12 to 14 in ML IDs, are spread over the range of some 20 to 31 on the Legend ID scale? My little naive piece-wise linear graph mapping Legend IDs to Vanquish IDs (based on Jeff's testimony 🙂 is probably way off the mark - Nokta may have better separation abilities than it suggests.

Would this more or less describe it?

Is there an approximate correspondence/mapping between the Legend's ID scale and the (old)Nox/Vanquish one? Would the grouping of objects be similar?

In the news: https://www.theguardian.com/culture/2023/jan/31/metal-detectorist-tudor-gold-pendant-henry-viii-katherine-of-aragon-warwickshire

The little calculator quoted above computes the uncertainty propagation and does the balance of their contributions, which can show you what may work (try 0.1 g for the scale uncertainty and look at pretty wide range of likely densities that it produces for example due to mostly imprecision in estimating volume). But it will not account for gross errors like bubbles etc. https://docs.google.com/spreadsheets/d/1Srt7cy0Fx_xkNjQO7IVXo-aK01jEYygS_W0VQZAbTCQ/edit?rm=minimal#gid=0

Yes, thank you.

There is 'the Archimedes trick' to try to estimate the density of your nugget a little more tightly - for the size like this you would need a scale with resolution of 0.01 g to narrow the range (less than that probably won't cut it - it will give you large range of possible densities so it will be hard to identify the metal by it). Weigh the dry nugget Put a cup of water on the scale, zero the scale Dip your nugget in water but suspended from a thread or a thin wire Note the scale reading (it will be negative, but essentially its absolute magnitude is equivalent to mL of displaced water and thus measures the volume of your nugget. Divide the dry nugget mass (in grams) by the nugget volume (in milliliters or cubic centimeters) to get its density and see how close it is to platinum or other metals and their alloys that you suspect. Interpretation may be a bit more complicated because there is an uncertainty and range of values involved (hence the need for high-resolution scale to get the volume tightly enough), but I made a little calculator that simplifies things (it may not look like it at first but I promise that it does 🙂 https://docs.google.com/spreadsheets/d/1Srt7cy0Fx_xkNjQO7IVXo-aK01jEYygS_W0VQZAbTCQ/edit?rm=minimal#gid=0 You can change the values in white cells - the rest is calculated.

https://www.theguardian.com/world/2023/jan/07/treasure-map-hunt-15million-nazi-hoard

I just read that some 1000 Vallon mine detectors are being sent to Ukraine in support of its defence efforts. https://www.vallon.de/en/metal-detectors Don't know what models. Knowing nothing about mine detecting, I wonder how useful a metal detector may be in finding mines nowadays? I understand that many have very few metal parts and I would imagine that battlefields are awash with shrapnels and all kind of other small metal trash?

And some other typical 'landmark' IDs on Vanquish on the beach:

The Nox 700/900 seem to have doubled the ID scale resolution. Could anyone offer a guess if this simply means doubling the numerical resolution (as in US nickel moving from 13 to 26 etc.) or also stretching/compressing the scale and thus ID values changing locations (i.e. knowing the IDs on older Nox/Vanquish wouldn't be useful in predicting how items will ring on the extended scale)?

For what it's worth:

On a personal note: about a year ago I bought the first 'Mental Detector'. It was great: cheap, looked the part, and beeped a lot. Then I found DetectorProspector.com, read archives, asked questions, listened to deliberately supportive answers and got the Vanquish 440. That was revolutionary.

I looked at CTX3030 manual trying to figure out what the 2D detecting screen shows, and I'm still not sure what the vertical scale 'ferrous characteristics' actually show. It seems that its values increase from top to bottom (with the horizontal conductivity scale going traditionally from left to right). So the way I understand it non-ferrous targets should show on top of the screen with the horizonal courser position showing the increasing conductivity (size in a way) from left to right. Is that correct? Is this convention the same in Manticore? i.e. does the vertical scale have the same meaning, with the increasing ferrous component from top to bottom? Somehow I was under the impression that in the Manticore screen the non-ferrous targets would display along the middle line, with those showing ferrous characteristics departing from it up and down, but I'm not sure if this is true.

What's the difference between high and low then, I wonder?