{
"titleAmph1Index":{"_":"Minetosh online – Geology – AmphiCalc-1 (Amp15KX): Automatic calculation of amphibole composition from microprobe analyses"},
"subHeader":{"_":"Geology – Web-Apps – Learning German – and more ..."},
"listStart":{"_":"Home"},
"listContact":{"_":"Contact – Imprint"},
"listDeutschIndex":{"_":"Learning German"},
"listDeutschIndex2":{"_":"Startpage"},
"listDeutsch2":{"_":"Texts and exercises"},
"listDeutsch3":{"_":"Audio and video"},
"listDeutsch4":{"_":"Online exercises"},
"listDeutsch5":{"_":"The comparison"},
"sprachen":{"_":"Languages"},
"listDeutschQuiz1":{"_":"The quiz 1"},
"menuModal1":{"_":"Modal Verbs 1:"},
"menuModal2":{"_":"Modal Verbs 2:"},
"listWeb-apps":{"_":"Web-Apps"},
"listWeb-apps3":{"_":"Web-Apps (List on start-page)"},
"geoMenuHeader":{"_":"Geology:"},
"geoMenuHeader1":{"_":"Geology"},
"geoMenuHeader2":{"_":"Calc spreadsheets"},
"geo1Header6":{"_":"Miscellaneous"},
"textesLuecke2c":{"_":"können vs. dürfen"},
"geo1":{"_":"Geo-1"},
"sitemap":{"_":"Sitemap"},
"button-top":{"title":"To the top"},
"button-bottom":{"title":"To the bottom"},
"header3Contact":{"_":"Contact"},
"imprintFooter":{"_":"Imprint"},
"menuPlgGtBarometer":{"_":"Plg-Gt Barometer"},
"menuAlHblBarometer":{"_":"Al-Hbl Barometer"},
"menuHblPlgThermo":{"_":"Hbl-Plg Thermometer"},
"menuFsp":{"_":"Feldspar"},
"menuGrt":{"_":"GarnetCalc"},
"menuMsk":{"_":"MicaCalc"},
"menuBiotit":{"_":"Biotite"},
"menuAmphi1":{"_":"AmphiCalc-1"},
"menuAmphi1a":{"_":" (Na amphiboles)"},

"geo1Header1":{"_":"Minetosh online – Geology Web-Apps"},
"hammer":{"alt":"Crossed hammers"},
"hammer":{"title":"Crossed hammers"},

"amphi1Header1":{"_":"Amp15KX – Amphibole compositions based on 15 cations without K"},
"amphi1Text1a":{"_":"Amp15KX allows the calculation of amphibole analyses based on 15 cations without potassium."},
"amphi1Text1b":{"_":"This method of calculation has the consequence that especially in Na-rich amphiboles with a low Ca content (glaucophanes or similar) almost all Na is shifted to the B-position. According to Robinson et al. (1982), this calculation should especially be used for Na-amphiboles. However, it often leads to an overestimation of the Fe³⁺ content in Ca-amphiboles. Note that Ca is only allowed in the B position, which often leads to an incorrect occupation in this position in Na-amphiboles. The positions are filled according to Leake (1978)."},
"amphi1Text1c":{"_":"By entering values into the \"% Fe₂O₃\" input-field, an iterative Fe³⁺ adjustment must be carried out until the sum of the valences equals 46."},
"amphi1Text2a":{"_":"From microprobe analyses, Amp15KX automatically calculates amphibole compositions, the oxides, the cations, the lattice site occupancies, the values for divalent and trivalent iron (total iron, Fe²⁺, Fe³⁺) and more. The following diagrams are also automatically generated: Leake-diagram, ACF-diagram, AFM-diagram."},
"amphi1Text2b":{"_":"You can enter the values individually directly into the "},
"amphi1Text2c":{"_":"table"},
"amphi1Text2d":{"_":" below or use the "},
"amphi1Text2d2":{"_":"input fields"},
"amphi1Text2d3":{"_":". Here you enter for up to 5 amphiboles the values (oxides) as rows separated by single spaces (see placeholders; 200 characters max.). Note the order of the elements: Na Mg Al Si K Ca Ti Mn Fe (total Fe as FeO) H₂O V Total! Additionally, the sample designation must come first. You can use the period or the comma as a decimal separator."},
"amphi1Text2e":{"_":"Literature see bottom of page"},
"techNote1":{"_":"Technical note: Although the responsive design should work on all common screen sizes, this page is displayed best from a screen/window size of at least 1361px."},
"baroText2":{"_":"If you want, you can delete the example data in the tables first:"},
"ClearFirst":{"_":"Delete example data"},
"section1Header":{"_":"Data input"},
"name":{"_":"Name"},

"bulkInput1":{"_":"Oxydes: Name Na₂O MgO Al₂O₃ SiO₂ K₂O CaO TiO₂ MnO FeO H₂O V₂O₃ Total"},
"bulkInput1c":{"_":"(Total Fe as FeO!)"},
"bulkInputAmph1":{"_":"Amphibole 1"},
"bulkInputAmph2":{"_":"Amphibole 2"},
"bulkInputAmph3":{"_":"Amphibole 3"},
"bulkInputAmph4":{"_":"Amphibole 4"},
"bulkInputAmph5":{"_":"Amphibole 5"},
"writeData":{"_":"Enter data"},
"grid1Header":{"_":"Your amphiboles"},

"calculation":{"_":"Calculation"},
"Fe3+Adjust1":{"_":"Step 1: Fe³⁺-Determination"},
"Fe3+Adjust2":{"_":"By manually entering values ​​for the Fe₂O₃ content of total iron into the \"% Fe₂O₃\" fields, an iterative Fe³⁺ adjustment must be performed until the sum of the valences is 46 (the difference between the target and actual values ​​must be 0). When entering values, please be sure to confirm the entries in the \"% Fe₂O₃\" field with the Enter or Tab key. Then click the button \"Calculate\"."},
"Fe3+Adjust2a":{"_":"Notice:"},
"Fe3+Adjust2b":{"_":" For the example data for amphiboles 1 to 4, values ​​for the Fe₂O₃ content are already predefined (27.285%, 85.785%, 80.157% and 29.668%). After clicking the \"Calculation\" button, the value for each valence should be 46, and the confirmation message \"OK!\" should appear. If this is not the case, please reload the page."},
"Fe3+Adjust3a":{"_":"Enter Fe₂O₃ proportion "},
"Fe3+Adjust3b":{"_":"of"},
"Fe3+Adjust3c":{"_":" the total iron below"},
"Fe3+Adjust4a":{"_":"Sum of "},
"Fe3+Adjust4b":{"_":"valences"},
"Fe3+Adjust4c":{"_":"(Required value: 46)"},
"Fe3+Adjust5":{"_":"Valences (rounded)"},
"Fe3+Adjust5a":{"_":"Valences"},
"Fe3+Diff1a":{"_":"Difference between the target "},
"Fe3+Diff1b":{"_":"and"},
"Fe3+Diff1c":{"_":" actual values (Target: 0)"},
"Fe3+Diff2":{"_":"Difference"},
"kontrolle":{"_":"Check"},
"calcFirstStep1":{"_":"Step 2: Calculation"},
"calcFirstStep2":{"_":"Click the button to determine the Fe₂O₃ content of the total iron and to calculate the amphibole composition."},
"rechnen":{"_":"Calculate"},

"headerNebenrechnung1":{"_":"Constants and intermediate results"},
"reload":{"_":"Reload"},
"hideDetails":{"_":"Collapse"},
"atomicWeight":{"_":"Mol wt. (MW)"},
"eleMent":{"_":"Element"},
"oxygen":{"_":"Oxygen"},
"wt.-%":{"_":"Wt.-%"},
"sum":{"_":"Total"},
"noWater":{"_":"*without Water"},
"oxide":{"_":"Oxides [wt.-%]"},
"catCalc1":{"_":"Cation calculation (I)"},
"catCalc2":{"_":"Cation calculation (II) – \"Re-Calculation\""},
"catCalc2SumCat1":{"_":"Total Cations (I)"},
"catCalc2SumCat2":{"_":"Total Cations (II)"},

"gridOccu":{"_":"Grid occupation"},
"formOccu":{"_":"Formula occupation"},
"catCalc3":{"_":"Intermediate cation occupation"},
"catCalc5":{"_":"Even more intermediate results (for control purposes)"},
"klassifikation":{"_":"Classifikation"},
"bulkInput1b":{"_":"Amphibole (23 oxygens)"},
"dataSet2Header1b":{"_":"Fe₂O₃ re-calculation"},
"tableDS1Header1":{"_":"Oxides"},
"Leake1":{"_":"Classification after Leake"},
"tableDS1Header2":{"_":"Cations"},
"formulaHeader":{"_":"Formula occupation"},
"Fe3Anteil":{"_":"Fe₂O₃ proportion of the total iron"},
"comments":{"_":"Comments"},
"ACFDia":{"_":"The ACF diagram"},
"captionDia1":{"_":"The amphiboles in the ACF diagram. To download the chart (Amphibole_ACF.svg) and see more options, hover your mouse over the image. You can zoom in on any area. To zoom back to the original size, double-click the image."},
"topCorner":{"_":"Top Corner:"},
"rightCorner":{"_":"Right corner:"},
"leftCorner":{"_":"Left corner:"},
"showACFButton":{"_":"Show ACF diagram"},
"showAFM1Button":{"_":"Show AFM diagram"},
"AFMDia":{"_":"The AFM Diagram"},
"captionAFM1":{"_":"The amphiboles shown in the AFM(Ms) diagram (Top: A; Right: M; Left: F). After Nelson, S.A. (2011). To download the chart (Amphibole_AFM(Ms).svg) and see more options, hover your mouse over the image."},
"showLeakeButton":{"_":"Show Leake diagram"},
"redField":{"_":"Between the red lines"},
"biotites":{"_":"Biotite"},
"greenField":{"_":"Between the green lines"},
"chlorite":{"_":"Chlorite"},
"AFMms":{"_":"The AFM(Ms) diagram"},
"captionAFM1a":{"_":"The AFM(Ms) diagram. From Nelson, S.A. (2011)."},

"showLeakeButton":{"_":"Show Leake diagram"},
"leake":{"_":"The Leake diagram"},
"captionLeake1":{"_":"The amphiboles shown in the Leake diagram (after Leake, B.E., 1978). To download the chart (Amphibole_Leake.svg) and see more options, hover your mouse over the image."},
"leakeFields1":{"_":"The fields in the Leake-Diagram"},
"captionLeake2":{"_":"The fields in the Leake-Diagram (see below)."},

"grid1HeaderText1":{"_":"You can also enter your data (oxides) here (into the light-blue fields). Here, you may also enter values for Fe₂O₃ manually."},
"legende":{"_":"Captions"},

"diagrams":{"_":"The diagrams"},
"deleteAllData":{"_":"Reset all"},
"result":{"_":"Results"},
"speichernHeader1":{"_":"Download data"},
"currDate":{"_":"Current date"},
"enterTitle":{"_":"Enter a title"},
"requiredField":{"placeholder":"Required field"},
"enterID":{"_":"Sample number, etc."},
"resetTitles":{"_":"Reset titles"},
"listeLadenHeader":{"_":"Download data file (*.csv)"},
"downloadDiaButton":{"_":"Download diagram"},
"literature":{"_":"Literature"},

"dummy":{"_":""}
}