Podcasts about resistivity

Understanding electrostatic dissipative (ESD) vs. conductive floor coatings is one of the industry's most persistently misunderstood topics. In this episode of The Red Bucket, subject matter expert Richie Cropp of Dudick discusses the purpose of these specialty products, provides use cases for each type, and explains the critical importance of seeking the knowledge of material manufacturers.    Also, Richie shares his plans for Black Friday.   00:00 – Intro  02:27 – This topic is misunderstood  04:05 – How static electricity is generated  08:01 – Resistivity ranges  10:01 – Where does the electricity go?  11:48 – Coating fillers carry the current  12:48 – When to apply conductive vs. dissipative floor coatings  15:45 – The same facility might require both types  17:20 – ESD/conductive coating performance vs. general purpose toppings  19:41 – How coating manufacturers help engineers/specifiers  22:00 – Installed cost comparison  23:28 – Four questions  Find out more at https://carboline-tech-service-podcast.pinecast.co

Amie Ostrander is a non-seismic oil and gas exploration consultant and researcher. His early research work with Exxon, Marathon, Texaco, and other major oil companies and some smaller independents demonstrated the potential of using non-seismic resistivity technology for oil exploration in plays where seismic data does not delineate the oil and gas reservoirs. Arnie's 40-year focus has been the utilization of non-seismic geophysical methods for the delineation of high-volume, high­ profit, and underdeveloped fracture reservoirs, and some potentially high-volume stratigraphic reservoirs that were not observed in either 2-0 or 3-0 seismic data.

Tolu Minerals Ltd (ASX: TOK) managing director and CEO Iain Macpherson joins Jonathan Jackson in the Proactive studio to discuss the start of an airborne mobile Magneto Telluric (MT) survey program over its Papua New Guinea (PNG) gold, silver and base metal projects, starting with the Tolukuma Mining Lease. The survey, conducted by Expert Geophysics Limited (EGL), aims to provide electrical resistivity imaging to a depth of 1 kilometre and near-surface conductivity information to define geological structures related to mineralisation. The Tolukuma survey will cover 2,500 square kilometres, followed by a 200 square kilometre survey over nearby Ipi River EL2780. EGL will then survey the Mt Penck EL 2662 on New Britain, covering 185 square kilometres. The program will assist in identifying new geophysical targets, enhancing Tolu Minerals' database of technical information. Resistivity data from the airborne MT will be modelled to guide drill targets' depth and location. Tolu expects to interpret new targets requiring ongoing geological mapping, sampling and drill testing. Macpherson expressed satisfaction with the survey's commencement, highlighting its role in defining new gold and copper targets and informing the company's evolving exploration strategy. Preliminary data updates will be provided as the survey progresses. #ProactiveInvestors #ToluMinerals #ASX #GoldExploration, #PapuaNewGuinea, #AirborneSurvey, #Geophysics, #Mineralisation, #Tolukuma, #BaseMetals, #SilverExploration, #ExpertGeophysics, #MiningNews, #CopperTargets, #ExplorationStrategy, #MTSurvey, #NewTargets, #GeologicalMapping, #DrillTesting, #MineralProjects, #TechnicalData, #MiningIndustry #invest #investing #investment #investor #stockmarket #stocks #stock #stockmarketnews

In this episode, E&S Grounding Solutions President David Stockin continues a discussion on the Wenner four-point method for testing soil resistivity. Sounding should occur at least to the extent of the sphere of influence, which can be determined from the diagonal length of the grounding system. Selecting the proper intervals of test probe spacing is important to avoid a mathematical headache and obtain more accurate models of the soil resistivity. IEEE Standard 80 suggests taking soundings at a depth of up to three times the extent of the sphere of influence. It is very important to know how to safely handle the high-power equipment used to get the deeper soundings. For a video of this podcast, please visit our YouTube Channel at E&S Grounding Solutions. For more information or to sign up for some of our world-renowned educational classes, please visit our website at www.ESgrounding.com.Please follow us on Social Media for updates and behind the scenes info:Instagram:@AskTheGroundingExperts@ESgroundingFacebook:https://www.facebook.com/esgroundingYouTube:https://www.youtube.com/channel/UCWWjcaK6ozQI5DCF0wf58HQ

In this episode, E&S Grounding Solutions President David Stockin discusses the Wenner four-point method for testing soil resistivity. Selecting proper spacing of the four test probes must be considered when measuring the resistivity at various depths into the earth. It is important to investigate how the measurements may differ between seasons and weather conditions. The results of a soil resistivity test employing the Wenner method are an essential part of the soil model used when studying how fault current dissipates in the earth through the grounding system, and how personnel can be protected from dangerous step and touch potentials. For a video of this podcast, please visit our YouTube Channel at E&S Grounding Solutions. For more information or to sign up for some of our world-renowned educational classes, please visit our website at www.ESgrounding.comPlease follow us on Social Media for updates and behind the scenes info:Instagram:@AskTheGroundingExperts@ESgroundingFacebook:https://www.facebook.com/esgroundingYouTube:https://www.youtube.com/channel/UCWWjcaK6ozQI5DCF0wf58HQ

Brothers John and Will Wiesenfeld improve electricity.   2PointOhPodcast.com patreon.com/2PointOhPodcast   Podcast Twitter: @2PointOhPodcast personal twitter/instagram: Will: @BATHSmusic John: @sweaterstripes   Theme: Will Art: John

A high-temperature super-conductor is cooled down using liquid nitrogen. When reaching the critical temperature, a magnetic cube lying on top of the super-conductor begins to levitate.

A high-temperature super-conductor is cooled down using liquid nitrogen. When reaching the critical temperature, a magnetic cube lying on top of the super-conductor begins to levitate.

Chauris, H (Mines Paristech) Friday 16 December 2011, 15:30-16:00

Asher, U (University of British Columbia) Tuesday 23 August 2011, 11:45-12:30

Drake, J (Maryland) Wednesday 28 July 2010, 10:00-11:30

Interview with Ken and Joanne Kvamme from the Archeo-Imaging Lab about the geophyical surveys in the Heart River Region of North Dakota.

Interview with Ken and Joanne Kvamme from the Archeo-Imaging Lab about the geophyical surveys in the Heart River Region of North Dakota.