ICP - Mono Element ppm Standard Solutions (Plasma HIQU)
|
|
- Britton Andrews
- 8 years ago
- Views:
Transcription
1 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL CL Aluminium standard solution (Plasma HIQU) 1 g Al / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Al(3+) (±2 µg - 20 C) Aluminium standard solution (Plasma HIQU) 1 g Al / l 2 to 5% HCl Solution contains 1.000µg/ml of Al(3+) (±2 µg - 20 C) Aluminium(III) oxide standard solution (Plasma HIQU) g Al / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Al2O3 (±2 µg - 20 C) Aluminium Antimony Antimony standard solution (Plasma HIQU) 1 g Sb / l 10 to 20% HCl Solution contains 1.000µg/ml of Sb(3+) (±2 µg - 20 C) Antimony standard solution (Plasma HIQU) 1 g Sb / l 2 to 5% HNO3 + traces HF Solution contains 1.000µg/ml of Sb(5+) (±2 µg - 20 C) Arsenicum Arsenicum standard solution (Plasma HIQU) 1.32 g As2O3 / l 2% KOH Solution contains 1.000µg/ml of As(3+) (±2 µg - 20 C) Arsenicum standard solution (Plasma HIQU) 1.32 g As2O3 / l 2 to 5% HCl Solution contains 1.000µg/ml of As(3+) (±2 µg - 20 C) Arsenicum standard solution (Plasma HIQU) 1.32 g As2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of As(5+) (±2 µg - 20 C) Barium Barium standard solution (Plasma HIQU) 1.44 g BaCO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Ba(2+) (±2 µg - 20 C) Barium standard solution (Plasma HIQU) 1.44 g BaCO3 / l 2 to 5% HCl Solution contains 1.000µg/ml of Ba(2+) (±2 µg - 20 C) Beryllium Beryllium standard solution (Plasma HIQU) 1 g Be / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Be(2+) (±2 µg - 20 C) Beryllium standard solution (Plasma HIQU) 1 g Be / l 2 to 5% HCl Solution contains 1.000µg/ml of Be(2+) (±2 µg - 20 C) Bismuth standard solution (Plasma HIQU) 1 g Bi / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Bi(3+) (±2 µg - 20 C) Bismuth 100 ml 19, ml 49,40
2 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL CL Boron standard solution (Plasma HIQU) g H3BO3 / l H2O Solution contains 1.000µg/ml of B(3+) (±2 µg - 20 C) Boron standard solution (Plasma HIQU) 5.72 g H3BO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of B(3+) (±2 µg - 20 C) Boron Cadmium Cadmium standard solution (Plasma HIQU) 1 g Cd / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Cd(2+) (±2 µg - 20 C) Calcium Calcium standard solution (Plasma HIQU) 2.5 g CaCO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Ca(2+) (±2 µg - 20 C) Calcium standard solution (Plasma HIQU) 2.5 g CaCO3 / l 2 to 5% HCl Solution contains 1.000µg/ml of Ca(2+) (±2 µg - 20 C) Calcium oxide standard solution (Plasma HIQU) 1.79 g CaCO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of CaO (±2 µg - 20 C) Cerium Cerium standard solution (Plasma HIQU) 1.23 g CeO2 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Ce(3+) (±2 µg - 20 C) Cesium standard solution (Plasma HIQU) g Cs2CO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Cs(1+) (±2 µg - 20 C) Chromium standard solution (Plasma HIQU) g K2Cr2O7 / l H2O Solution contains 1.000µg/ml of Cr(6-) (±2 µg - 20 C) Cesium Chromium Chromium standard solution (Plasma HIQU) 1 g Cr / l 2 to 5% HCl Solution contains 1.000µg/ml of Cr(3+) (±2 µg - 20 C) Chromium standard solution (Plasma HIQU) 1 g Cr / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Cr(3+) (±2 µg - 20 C) Cobalt Cobalt standard solution (Plasma HIQU) 1 g Co / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Co(2+) (±2 µg - 20 C) Cobalt standard solution (Plasma HIQU) 1 g Co / l 2 to 5% HCl Solution contains 1.000µg/ml of Co(2+) (±2 µg - 20 C)
3 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL Copper Copper standard solution (Plasma HIQU) 1 g Cu / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Cu(2+) (±2 µg - 20 C) Copper standard solution (Plasma HIQU) 1.26 g CuO / l 2 to 5% HCl Solution contains 1.000µg/ml of Cu(2+) (±2 µg - 20 C) Dysprosium Dysprosium standard solution (Plasma HIQU) 1.15 g Dy2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Dy(3+) (±2 µg - 20 C) Erbium standard solution (Plasma HIQU) 1.15 g Er2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Er(3+) (±2 µg - 20 C) Erbium Europium Europium standard solution (Plasma HIQU) 1.16 g Eu2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Eu(3+) (±2 µg - 20 C) Gadolinium Gadolinium standard solution (Plasma HIQU) 1.16 g Gd2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Gd(3+) (±2 µg - 20 C) Gallium Gallium standard solution (Plasma HIQU) 1 g Ga / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Ga(3+) (±2 µg - 20 C) Germanium Germanium standard solution (Plasma HIQU) 1 g Ge / l 2% KOH Solution contains 1.000µg/ml of Ge(4+) (±2 µg - 20 C) Germanium standard solution (Plasma HIQU) 1 g Ge / l 2 to 5% HNO3 + traces HF Solution contains 1.000µg/ml of Ge(4+) (±2 µg - 20 C) Gold Gold standard solution (Plasma HIQU) 1 g Au / l 10 to 20% HCl Solution contains 1.000µg/ml of Au(3+) (±2 µg - 20 C) Hafnium standard solution (Plasma HIQU) 1 g Hf / l 5% HF Solution contains 1.000µg/ml of Hf(4+) (±2 µg - 20 C) Hafnium standard solution (Plasma HIQU) g HfOCl2.8H2O / l 2 to 5% HCl Solution contains 1.000µg/ml of Hf(4+) (±2 µg - 20 C) Hafnium 100 ml 26, ml 93, ml 26, ml 93, ml 33, ml 108, ml 26, ml 93, ml 26, ml 93, ml 26, ml 93, ml 26, ml 93, ml 41, ml 130, ml 26, ml 93, ml 26, ml 93,60
4 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL Holmium Holmium standard solution (Plasma HIQU) 1.15 g Ho2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Ho(3+) (±2 µg - 20 C) Indium standard solution (Plasma HIQU) 1 g In / l 2 to 5% HNO3 Solution contains 1.000µg/ml of In(3+) (±2 µg - 20 C) Iridium standard solution (Plasma HIQU) 1.84 g IrCl3.3H2O / l 10 to 20% HCl Solution contains 1.000µg/ml of Ir(3+) (±2 µg - 20 C) Indium Iridium Iron Iron standard solution (Plasma HIQU) 1 g Fe / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Fe(3+) (±2 µg - 20 C) Iron standard solution (Plasma HIQU) 1 g Fe / l 2 to 5% HCl Solution contains 1.000µg/ml of Fe(3+) (±2 µg - 20 C) Iron(III) oxide standard solution (Plasma HIQU) g Fe / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Fe2O3 (±2 µg - 20 C) Lanthanum Lanthanum standard solution (Plasma HIQU) 1.18 g La2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of La(3+) (±2 µg - 20 C) Lanthanum standard solution (Plasma HIQU) 1.18 g La2O3 / l 2 to 5% HCl Solution contains 1.000µg/ml of La(3+) (±2 µg - 20 C) Lead standard solution (Plasma HIQU) 1 g Pb / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Pb(2+) (±2 µg - 20 C) Lithium standard solution (Plasma HIQU) 5.33 g Li2CO3 / l 2 to 5% HCl Solution contains 1.000µg/ml of Li(1+) (±2 µg - 20 C) Lithium standard solution (Plasma HIQU) 5.33 g Li2CO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Li(1+) (±2 µg - 20 C) Lead Lithium Lutetium Lutetium standard solution (Plasma HIQU) 1.14 g Lu2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Lu(3+) (±2 µg - 20 C) 100 ml 26, ml 93, ml 53, ml 156, ml 49, ml 184,90
5 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL CL Magnesium Magnesium standard solution (Plasma HIQU) 1 g Mg / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Mg(2+) (±2 µg - 20 C) Magnesium standard solution (Plasma HIQU) 1 g Mg / l 2 to 5% HCl Solution contains 1.000µg/ml of Mg(2+) (±2 µg - 20 C) Magnesium oxide standard solution (Plasma HIQU) g Mg / l 2 to 5% HNO3 Solution contains 1.000µg/ml of MgO (±2 µg - 20 C) Manganese Manganese standard solution (Plasma HIQU) 1 g Mn / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Mn(2+) (±2 µg - 20 C) Manganese standard solution (Plasma HIQU) 1 g Mn / l 2 to 5% HCl Solution contains 1.000µg/ml of Mn(2+) (±2 µg - 20 C) Manganese(III) oxide standard solution (Plasma HIQU) g Mn / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Mn2O3 (±2 µg - 20 C) Mercury Mercury standard solution (Plasma HIQU) 1 g Hg / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Hg(2+) (±2 µg - 20 C) Molybdenum Molybdenum standard solution (Plasma HIQU) 1 g Mo / l 2 to 5% HNO3 + traces HF Solution contains 1.000µg/ml of Mo(6+) (±2 µg - 20 C) Molybdenum standard solution (Plasma HIQU) g (NH4)2MoO4 / l 2% NH4OH Solution contains 1.000µg/ml of Mo(6+) (±2 µg - 20 C) Neodymium standard solution (Plasma HIQU) 1.17 g Nd2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Nd(3+) (±2 µg - 20 C) Nickel standard solution (Plasma HIQU) 1 g Ni / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Ni(2+) (±2 µg - 20 C) Nickel standard solution (Plasma HIQU) g NiO / l 2 to 5% HCl Solution contains 1.000µg/ml of Ni(2+) (±2 µg - 20 C) Neodymium Nickel Niobium Niobium standard solution (Plasma HIQU) 1 g Nb / l 5% HF Solution contains 1.000µg/ml of Nb(5+) (±2 µg - 20 C) 100 ml 26, ml 93, ml 26, ml 93,60
6 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL CL Osmium Osmium standard solution (Plasma HIQU) 2.31 g (NH4)2OsCl6 / l 2 to 5% HCl Solution contains 1.000µg/ml of Os(4+) (±2 µg - 20 C) Palladium Palladium standard solution (Plasma HIQU) 1 g Pd / l 10 to 20% HCl Solution contains 1.000µg/ml of Pd(2+) (±2 µg - 20 C) Phosphorus standard solution (Plasma HIQU) g (NH4)2HPO4 / l H2O Solution contains 1.000µg/ml of P (±2 µg - 20 C) Phosphorus standard solution (Plasma HIQU) g KH2PO4 / l H2O Solution contains 1.000µg/ml of P (±2 µg - 20 C) Phosphorus standard solution (Plasma HIQU) g H3PO4 / l 2 to 5 % HNO3 Solution contains 1.000µg/ml of P (±2 µg - 20 C) Phosphorus Phosphorus pentoxide standard solution (Plasma HIQU) g H3PO4 / l H2O Solution contains 1.000µg/ml of P2O5 (±2 µg - 20 C) Platinum standard solution (Plasma HIQU) 1 g Pt / l 10 to 20% HCl Solution contains 1.000µg/ml of Pt(4+) (±2 µg - 20 C) Potassium standard solution (Plasma HIQU) g KNO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of K(1+) (±2 µg - 20 C) Potassium standard solution (Plasma HIQU) g KCl / l 2 to 5% HCl Solution contains 1.000µg/ml of K(1+) (±2 µg - 20 C) Potassium oxide standard solution (Plasma HIQU) 2.15 g KNO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of K2O (±2 µg - 20 C) Platinum Potassium Praseodymium Praseodymium standard solution (Plasma HIQU) 1.21 g Pr6O11 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Pr(3+/4+) (±2 µg - 20 C) Rhenium Rhenium standard solution (Plasma HIQU) g NH4ReO4 / l H2O Solution contains 1.000µg/ml of Re(4+) (±2 µg - 20 C) Rhenium standard solution (Plasma HIQU) 1 g Re / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Re(4+) (±2 µg - 20 C) 100 ml 129, ml 482, ml 33, ml 108, ml 41, ml 130, ml 26, ml 93, ml 33, ml 108, ml 26, ml 93,60
7 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL CL Rhodium Rhodium standard solution (Plasma HIQU) g RhCl3.3H2O/ l 10 to 20% HCl Solution contains 1.000µg/ml of Rh(3+) (±20 µg - 20 C) Rubidium Rubidium standard solution (Plasma HIQU) 1.36 g Rb2CO3 / l 2 to 5% HCl Solution contains 1.000µg/ml of Rb(1+) (±2 µg - 20 C) Rubidium standard solution (Plasma HIQU) 1.36 g Rb2CO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Rb(1+) (±2 µg - 20 C) Ruthenium Ruthenium standard solution (Plasma HIQU) 2.6 g RuCl3.3H2O / l 10 to 20% HCl Solution contains 1.000µg/ml of Ru(3+) (±2 µg - 20 C) Samarium Samarium standard solution (Plasma HIQU) 1.16 g Sm2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Sm(3+) (±2 µg - 20 C) Scandium Scandium standard solution (Plasma HIQU) g Sc2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Sc(3+) (±2 µg - 20 C) Selenium Selenium standard solution (Plasma HIQU) 1 g Se / l 10% HCl Solution contains 1.000µg/ml of Se(4+) (±2 µg - 20 C) Selenium standard solution (Plasma HIQU) 1 g Se / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Se(4+) (±2 µg - 20 C) Silicium standard solution (Plasma HIQU) 2.14 g SiO2 / l 2% KOH Solution contains 1.000µg/ml of Si(4+) (±2 µg - 20 C) Silicium standard solution (Plasma HIQU) 2.14 g SiO2 / l 2% NaOH Solution contains 1.000µg/ml of Si(4+) (±2 µg - 20 C) Silicium standard solution (Plasma HIQU) g (NH4)2SiF6 / l 5% HF Solution contains 1.000µg/ml of Si (±2 µg - 20 C) Silicium standard solution (Plasma HIQU) 1 g Si / l 2 to 5% HNO3 + traces HF Solution contains 1.000µg/ml of Si (±2 µg - 20 C) Silicium dioxide standard solution (Plasma HIQU) g (NH4)2SiF6 / l 5% HF Solution contains 1.000µg/ml of SiO2 (±2 µg - 20 C) Silicium 100 ml 66, ml 33, ml 108, ml 26, ml 93, ml 49, ml 184,90 5 l 312,00
8 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL CL Silver Silver standard solution (Plasma HIQU) 1 g Ag / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Ag(1+) (±2 µg - 20 C) Sodium Sodium standard solution (Plasma HIQU) g NaNO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Na(1+) (±2 µg - 20 C) Sodium standard solution (Plasma HIQU) g NaCl / l 2 to 5% HCl Solution contains 1.000µg/ml of Na(1+) (±2 µg - 20 C) Sodium oxide standard solution (Plasma HIQU) 2.75 g NaNO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Na2O (±2 µg - 20 C) Strontium Strontium standard solution (Plasma HIQU) g SrCO3 / l 2 to 5% HCl Solution contains 1.000µg/ml of Sr(2+) (±2 µg - 20 C) Strontium standard solution (Plasma HIQU) g SrCO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Sr(2+) (±2 µg - 20 C) Sulfur standard solution (Plasma HIQU) g (NH4)2SO4 / l H2O Solution contains 1.000µg/ml of S (±2 µg - 20 C) Sulfur standard solution (Plasma HIQU) g H2SO4 / l H2O Solution contains 1.000µg/ml of S (±2 µg - 20 C) Sulfur Tantalum Tantalum standard solution (Plasma HIQU) 1 g Ta / l 5% HF Solution contains 1.000µg/ml of Ta(5+) (±2 µg - 20 C) Tantalum standard solution (Plasma HIQU) 1 g Ta / l 2 to 5% HNO3 + traces HF Solution contains 1.000µg/ml of Ta(5+) (±2 µg - 20 C) Tellurium Tellurium standard solution (Plasma HIQU) 1 g Te / l 2% KOH Solution contains 1.000µg/ml of Te(4+) (±2 µg - 20 C) Tellurium standard solution (Plasma HIQU) 1 g Te / l 10 to 20% HCl Solution contains 1.000µg/ml of Te(4+) (±2 µg - 20 C) Tellurium standard solution (Plasma HIQU) 1 g Te / l 2 to 5% HNO3 + traces HF Solution contains 1.000µg/ml of Te(4+) (±2 µg - 20 C) 100 ml 26, ml 93, ml 26, ml 93,60
9 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL Terbium Terbium standard solution (Plasma HIQU) 1.18 g Tb4O7 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Tb(3+/4+) (±2 µg - 20 C) Thallium standard solution (Plasma HIQU) 1 g Tl / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Tl(1+) (±2 µg - 20 C) Thallium Thorium Thorium standard solution (Plasma HIQU) 2.46 g Th(NO3)4.5H2O / l 10% HNO3 Solution contains 1.000µg/ml of Th(4+) (±2 µg - 20 C) Thulium Thulium standard solution (Plasma HIQU) 1.15 g Tm2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Tm(3+) (±2 µg - 20 C) Tin standard solution (Plasma HIQU) 1 g Sn / l 10 to 20% HCl Solution contains 1.000µg/ml of Sn(2+) (±2 µg - 20 C) Titanium standard solution (Plasma HIQU) 1 g Ti / l 5% HF Solution contains 1.000µg/ml of Ti(4+) (±2 µg - 20 C) Titanium standard solution (Plasma HIQU) g TiCl4 / l 10 to 20% HCl Solution contains 1.000µg/ml of Ti(4+) (±2 µg - 20 C) Titanium standard solution (Plasma HIQU) 1 g Ti / l 2 to 5% HNO3 + traces HF Solution contains 1.000µg/ml of Ti(4+) (±2 µg - 20 C) Tungsten standard solution (Plasma HIQU) 1 g W / l 5% HF Solution contains 1.000µg/ml of W(6+) (±2 µg - 20 C) Tungsten standard solution (Plasma HIQU) g WO3 / l 2% NH4OH Solution contains 1.000µg/ml of W(6+) (±2 µg - 20 C) Tungsten standard solution (Plasma HIQU) 1 g W / l 2 to 5% HNO3 + traces HF Solution contains 1.000µg/ml of W(6+) (±2 µg - 20 C) Uranium standard solution (Plasma HIQU) 1 g U / l 2 to 5% HNO3 Solution contains 1.000µg/ml of U(6+) (±2 µg - 20 C) Tin Titanium Tungsten Uranium 100 ml 26, ml 93, ml 26, ml 93, ml 70, ml 222, ml 49, ml 130,50
10 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL Vanadium standard solution (Plasma HIQU) 1 g V / l 2 to 5% HNO3 Solution contains 1.000µg/ml of V(3+) (±2 µg - 20 C) Vanadium Ytterbium Ytterbium standard solution (Plasma HIQU) 1.14 g Yb2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Yb(3+) (±2 µg - 20 C) Yttrium standard solution (Plasma HIQU) 1.27 g Y2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Y(3+) (±2 µg - 20 C) Yttrium Zinc Zinc standard solution (Plasma HIQU) 1 g Zn / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Zn(2+) (±2 µg - 20 C) Zinc standard solution (Plasma HIQU) 1 g Zn / l 2 to 5% HCl Solution contains 1.000µg/ml of Zn(2+) (±2 µg - 20 C) Zirconium standard solution (Plasma HIQU) 1 g Zr / l 5% HF Solution contains 1.000µg/ml of Zr(4+) (±2 µg - 20 C) Zirconium standard solution (Plasma HIQU) g ZrOCl2.8H2O / l 2 to 5% HCl Solution contains 1.000µg/ml of Zr(4+) (±2 µg - 20 C) Zirconium 100 ml 26, ml 93,60
11 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL Aluminium Aluminium standard solution (Plasma HIQU) 10 g Al / l 2 to 5% HNO3 Solution contains µg/ml of Al(3+) (±20 µg - 20 C) Aluminium standard solution (Plasma HIQU) 10 g Al / l 2 to 5% HCl Solution contains µg/ml of Al(3+) (±20 µg - 20 C) Antimony Antimony standard solution (Plasma HIQU) 10 g Sb / l 10 to 20% HCl Solution contains µg/ml of Sb(5+) (±20 µg - 20 C) Antimony standard solution (Plasma HIQU) 10 g Sb / l 2 to 5% HNO3 + traces HF Solution contains µg/ml of Sb(5+) (±2 µg - 20 C) Arsenicum Arsenicum standard solution (Plasma HIQU) 13.2 g As2O3 / l 2 to 5% HNO3 Solution contains µg/ml of As(5+) (±20 µg - 20 C) Barium Barium standard solution (Plasma HIQU) g BaCO3 / l 2 to 5% HNO3 Solution contains µg/ml of Ba(2+) (±20 µg - 20 C) Barium standard solution (Plasma HIQU) 14.4 g BaCO3 / l 2 to 5% HCl Solution contains µg/ml of Ba(2+) (±20 µg - 20 C) Beryllium Beryllium standard solution (Plasma HIQU) 10 g Be / l 2 to 5% HNO3 Solution contains µg/ml of Be(2+) (±20 µg - 20 C) Bismuth Bismuth standard solution (Plasma HIQU) 10 g Bi / l 2 to 5% HNO3 Solution contains µg/ml of Bi(3+) (±20 µg - 20 C) Boron Boron standard solution (Plasma HIQU) g H3BO3 / l H2O Solution contains 5.000µg/ml of B(3+) (±10 µg - 20 C) Cadmium Cadmium standard solution (Plasma HIQU) 10 g Cd / l 2 to 5% HNO3 Solution contains µg/ml of Cd(2+) (±20 µg - 20 C) Calcium Calcium standard solution (Plasma HIQU) 25 g CaCO3 / l 2 to 5% HNO3 Solution contains µg/ml of Ca(2+) (±20 µg - 20 C)
12 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL Calcium oxide standard solution (Plasma HIQU) g CaCO3 / l 2 to 5% HNO3 Solution contains µg/ml of CaO (±20 µg - 20 C) Cerium Cerium standard solution (Plasma HIQU) 12.3 g CeO2 / l 2 to 5% HNO3 Solution contains µg/ml of Ce(3+) (±20 µg - 20 C) Cesium Cesium standard solution (Plasma HIQU) 12.3 g Cs2CO3 / l 2 to 5% HNO3 Solution contains µg/ml of Cs(1+) (±20 µg - 20 C) Chromium Chromium standard solution (Plasma HIQU) 10 g Cr / l 2 to 5% HNO3 Solution contains µg/ml of Cr(3+) (±20 µg - 20 C) Chromium standard solution (Plasma HIQU) 10 g Cr / l 2 to 5% HCl Solution contains µg/ml of Cr(3+) (±20 µg - 20 C) Cobalt Cobalt standard solution (Plasma HIQU) 10 g Co / l 2 to 5% HNO3 Solution contains µg/ml of Co(2+) (±20 µg - 20 C) Copper Copper standard solution (Plasma HIQU) 10 g Cu / l 2 to 5% HNO3 Solution contains µg/ml of Cu(2+) (±20 µg - 20 C) Copper standard solution (Plasma HIQU) 12.6 g CuO / l 2 to 5% HCl Solution contains µg/ml of Cu(2+) (±20 µg - 20 C) Dysprosium Dysprosium standard solution (Plasma HIQU) 11.5 g Dy2O3 / l 2 to 5% HNO3 Solution contains µg/ml of Dy(3+) (±20 µg - 20 C) Erbium Erbium standard solution (Plasma HIQU) 11.5 g Er2O3 / l 2 to 5% HNO3 Solution contains µg/ml of Er(3+) (±20 µg - 20 C) Europium Europium standard solution (Plasma HIQU) 11.6 g Eu2O3 / l 2 to 5% HNO3 Solution contains µg/ml of Eu(3+) (±20 µg - 20 C) Gadolinium Gadolinium standard solution (Plasma HIQU) 11.6 g Gd2O3 / l 2 to 5% HNO3 Solution contains µg/ml of Gd(3+) (±20 µg - 20 C) 100 ml 97, ml 299, ml 97, ml 299, ml 97, ml 299, ml 97, ml 299,00
13 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL Gallium Gallium standard solution (Plasma HIQU) 10 g Ga / l 2 to 5% HNO3 + traces HCl Solution contains µg/ml of Ga(3+) (±20 µg - 20 C) Germanium Germanium standard solution (Plasma HIQU) 10 g Ge / l 2 to 5% HNO3 + traces HF Solution contains µg/ml of Ge(4+) (±20 µg - 20 C) Gold Gold standard solution (Plasma HIQU) 10 g Au / l 10 to 20% HCl Solution contains µg/ml of Au(3+) (±20 µg - 20 C) Hafnium Hafnium standard solution (Plasma HIQU) 10 g Hf / l 5% HF Solution contains µg/ml of HF(4+) (±20 µg - 20 C) Hafnium standard solution (Plasma HIQU) g HfOCl2.8H2O / l 2 to 5% HCl Solution contains µg/ml of Hf(4+) (±20 µg - 20 C) Holmium Holmium standard solution (Plasma HIQU) 11.5 g Ho2O3 / l 2 to 5% HNO3 Solution contains µg/ml of Ho(3+) (±20 µg - 20 C) Indium Indium standard solution (Plasma HIQU) 10 g In / l 2 to 5% HNO3 Solution contains µg/ml of In(3+) (±20 µg - 20 C) Iridium Iridium standard solution (Plasma HIQU) 18.4 g IrCl3.3H2O / l 10 to 20% HCl Solution contains µg/ml of Ir(3+) (±20 µg - 20 C) Iron Iron standard solution (Plasma HIQU) 10 g Fe / l 2 to 5% HNO3 Solution contains µg/ml of Fe(3+) (±20 µg - 20 C) Iron standard solution (Plasma HIQU) 10 g Fe / l 2 to 5% HCl Solution contains µg/ml of Fe(3+) (±20 µg - 20 C) Lanthanum Lanthanum standard solution (Plasma HIQU) 11.8 g La2O3 / l 2 to 5% HNO3 Solution contains µg/ml of La(3+) (±20 µg - 20 C) Lead Lead standard solution (Plasma HIQU) 10 g Pb / l 2 to 5% HNO3 Solution contains µg/ml of Pb(2+) (±20 µg - 20 C) 100 ml 219, ml 674, ml 97, ml 299, ml 97, ml 299, ml 219, ml 674,00
14 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL Lithium Lithium standard solution (Plasma HIQU) 53.3 g Li2CO3 / l 2 to 5% HNO3 Solution contains µg/ml of Li(1+) (±20 µg - 20 C) Lutetium Lutetium standard solution (Plasma HIQU) 11.4 g Lu2O3 / l 2 to 5% HNO3 Solution contains µg/ml of Lu(3+) (±20 µg - 20 C) Magnesium Magnesium standard solution (Plasma HIQU) 10 g Mg / l 2 to 5% HNO3 Solution contains µg/ml of Mg(2+) (±20 µg - 20 C) Magnesium oxide standard solution (Plasma HIQU) 10 g MgO / l 2 to 5% HNO3 Solution contains µg/ml of MgO (±20 µg - 20 C) Manganese Manganese standard solution (Plasma HIQU) 10 g Mn / l 2 to 5% HNO3 Solution contains µg/ml of Mn(2+) (±20 µg - 20 C) Mercury Mercury standard solution (Plasma HIQU) 10 g Hg / l 2 to 5% HNO3 Solution contains µg/ml of Hg(2+) (±20 µg - 20 C) Molybdenum Molybdenum standard solution (Plasma HIQU) 10 g Mo / l 2 to 5% HNO3 + traces HF Solution contains µg/ml of Mo(6+) (±20 µg - 20 C) Molybdenum standard solution (Plasma HIQU) g (NH4)2MoO4 / l 2% NH4OH Solution contains µg/ml of Mo(6+) (±20 µg - 20 C) Neodymium Neodymium standard solution (Plasma HIQU) 11.7 g Nd2O3 / l 2 to 5% HNO3 Solution contains µg/ml of Nd(3+) (±20 µg - 20 C) Nickel Nickel standard solution (Plasma HIQU) 10 g Ni / l 2 to 5% HNO3 Solution contains µg/ml of Ni(2+) (±20 µg - 20 C) Niobium Niobium standard solution (Plasma HIQU) 10 g Nb / l 5% HF Solution contains µg/ml of Nb(5+) (±20 µg - 20 C) Osmium Osmium standard solution (Plasma HIQU) 23.1 g (NH4)2OsCl6 / l 2 to 5% HCl Solution contains µg/ml of Os(4+) (±20 µg - 20 C) 100 ml 219, ml 674, ml 97, ml 299, ml 1.054,50
15 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL CL Palladium Palladium standard solution (Plasma HIQU) 10 g Pd / l 10 to 20% HCl Solution contains µg/ml of Pd(2+) (±20 µg - 20 C) Phosphorus standard solution (Plasma HIQU) g (NH4)2HPO4 / l H2O Solution contains µg/ml of P (±20 µg - 20 C) Phosphorus standard solution (Plasma HIQU) g H3PO4 / l H2O Solution contains µg/ml of P (±20 µg - 20 C) Phosphorus standard solution (Plasma HIQU) g H3PO4 / l 2 to 5 % HNO3 Solution contains µg/ml of P (±20 µg - 20 C) Phosphorus Phosphorus pentoxide standard solution (Plasma HIQU) g H3PO4 / l H2O Solution contains µg/ml of P2O5 (±20 µg - 20 C) Platinum Platinum standard solution (Plasma HIQU) 10 g Pt / l 10 to 20% HCl Solution contains µg/ml of Pt(4+) (±20 µg - 20 C) Potassium Potassium standard solution (Plasma HIQU) g KNO3 / l 2 to 5% HNO3 Solution contains µg/ml of K(1+) (±20 µg - 20 C) Potassium oxide standard solution (Plasma HIQU) g KNO3 / l 2 to 5% HNO3 Solution contains µg/ml of K2O (±20 µg - 20 C) Praseodymium Praseodymium standard solution (Plasma HIQU) 12.1 g Pr6O11 / l 2 to 5% HNO3 Solution contains µg/ml of Pr(3+/4+) (±20 µg-20 C) Rhenium Rhenium standard solution (Plasma HIQU) g NH4ReO4 / l H2O Solution contains µg/ml of Re(4+) (±20 µg - 20 C) Rhenium standard solution (Plasma HIQU) 10 g Re / l 2 to 5% HNO3 Solution contains µg/ml of Re(4+) (±20 µg - 20 C) Rhodium Rhodium standard solution (Plasma HIQU) g RhCl3.3H2O/ l 10 to 20% HCl Solution contains µg/ml of Rh(3+) (±20 µg - 20 C) Rubidium Rubidium standard solution (Plasma HIQU) 13.6 g Rb2CO3 / l 2 to 5% HNO3 Solution contains µg/ml of Rb(1+) (±20 µg - 20 C) 100 ml 130, ml 402, ml 249, ml 764, ml 97, ml 299, ml 130, ml 402, ml 130, ml 402, ml 445, ml 2.152,30
16 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL Ruthenium Ruthenium standard solution (Plasma HIQU) 26 g RuCl3.3H2O / l 10 to 20% HCl Solution contains µg/ml of Ru(3+) (±20 µg - 20 C) Samarium Samarium standard solution (Plasma HIQU) 11.6 g Sm2O3 / l 2 to 5% HNO3 Solution contains µg/ml of Sm(3+) (±20 µg - 20 C) Scandium Scandium standard solution (Plasma HIQU) g Sc2O3 / l 2 to 5% HNO3 Solution contains µg/ml of Sc(3+) (±20 µg - 20 C) Selenium Selenium standard solution (Plasma HIQU) 10 g Se / l 2 to 5% HNO3 Solution contains µg/ml of Se(4+) (±20 µg - 20 C) Silicium standard solution (Plasma HIQU) g (NH4)2SiF6 / l 5% HF Solution contains µg/ml of Si (±20 µg - 20 C) Silicium Silicium standard solution (Plasma HIQU) 21.4 g SiO2 / l 2% KOH Solution contains µg/ml of Si(4+) (±20 µg - 20 C) Silicium standard solution (Plasma HIQU) 10 g Si / l 2 to 5% HNO3 + traces HF Solution contains µg/ml of Si (±20 µg - 20 C) Silver Silver standard solution (Plasma HIQU) 10 g Ag / l 2 to 5% HNO3 Solution contains µg/ml of Ag(1+) (±20 µg - 20 C) Sodium Sodium standard solution (Plasma HIQU) g NaNO3 / l 2 to 5% HNO3 Solution contains µg/ml of Na(1+) (±20 µg - 20 C) Sodium oxide standard solution (Plasma HIQU) g NaNO3 / l 2 to 5% HNO3 Solution contains µg/ml of Na2O (±20 µg - 20 C) Strontium standard solution (Plasma HIQU) g SrCO3 / l 2 to 5% HNO3 Solution contains µg/ml of Sr(2+) (±20 µg - 20 C) Sulfur standard solution (Plasma HIQU) g H2SO4 / l H2O Solution contains µg/ml of S (±20 µg - 20 C) Strontium Sulfur 100 ml 219, ml 674, ml 219, ml 674,00
17 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL CL CL Sulfur standard solution (Plasma HIQU) g (NH4)2SO4 / l H2O Solution contains µg/ml of S (±20 µg - 20 C) Tantalum Tantalum standard solution (Plasma HIQU) 10 g Ta / l 5% HF Solution contains µg/ml of Ta(5+) (±20 µg - 20 C) Tantalum standard solution (Plasma HIQU) 10 g Ta / l 2 to 5% HNO3 + traces HF Solution contains µg/ml of Ta(5+) (±20 µg - 20 C) Tellurium Tellurium standard solution (Plasma HIQU) 10 g Te / l 2 to 5% HNO3 + traces HF Solution contains µg/ml of Te(4+) (±20 µg - 20 C) Tellurium standard solution (Plasma HIQU) 10 g Te / l 10 to 20% HCl Solution contains µg/ml of Te(4+) (±20 µg - 20 C) Terbium Terbium standard solution (Plasma HIQU) 11.8 g Tb4O7 / l 2 to 5% HNO3 Solution contains µg/ml of Tb(3+/4+) (±20 µg - 20 C) Thallium Thallium standard solution (Plasma HIQU) 10 g Tl / l 2 to 5% HNO3 Solution contains µg/ml of Tl(1+) (±20 µg - 20 C) Thorium Thorium standard solution (Plasma HIQU) 24.6 g Th(NO3)4.5H2O / l 10% HNO3 Solution contains µg/ml of Th(4+) (±20 µg - 20 C) Thulium Thulium standard solution (Plasma HIQU) 11.5 g Tm2O3 / l 2 to 5% HNO3 Solution contains µg/ml of Tm(3+) (±20 µg - 20 C) Tin Tin standard solution (Plasma HIQU) 10 g Sn / l 10 to 20% HCl Solution contains µg/ml of Sn(2+) (±20 µg - 20 C) Titanium Titanium standard solution (Plasma HIQU) g TiCl4 / l 10 to 20% HCl Solution contains µg/ml of Ti(4+) (±20 µg - 20 C) Titanium standard solution (Plasma HIQU) 10 g Ti / l 2 to 5% HNO3 + traces HF Solution contains µg/ml of Ti(4+) (±20 µg - 20 C) 100 ml 97, ml 299, ml 130, ml 402, ml 219, ml 674,00
18 ICP - Mono Element ppm Standard Solutions (Plasma HIQU) CL CL CL CL CL CL CL CL CL CL Tungsten Tungsten standard solution (Plasma HIQU) 10 g W / l 5% HF Solution contains µg/ml of W(6+) (±20 µg - 20 C) Tungsten standard solution (Plasma HIQU) 10 g W / l 2 to 5% HNO3 + traces HF Solution contains µg/ml of W(6+) (±20 µg - 20 C) Tungsten standard solution (Plasma HIQU) g WO3 / l 2% NH4OH Solution contains µg/ml of W(6+) (±20 µg - 20 C) Uranium Uranium standard solution (Plasma HIQU) 10 g U / l 2 to 5% HNO3 Solution contains µg/ml of U(6+) (±20 µg - 20 C) Vanadium Vanadium standard solution (Plasma HIQU) 10 g V / l 2 to 5% HNO3 Solution contains µg/ml of V(3+) (±20 µg - 20 C) Ytterbium Ytterbium standard solution (Plasma HIQU) 11.4 g Yb2O3 / l 2 to 5% HNO3 Solution contains µg/ml of Yb(3+) (±20 µg - 20 C) Yttrium Yttrium standard solution (Plasma HIQU) 12.7 g Y2O3 / l 2 to 5% HNO3 Solution contains µg/ml of Y(3+) (±20 µg - 20 C) Zinc Zinc standard solution (Plasma HIQU) 10 g Zn / l 2 to 5% HNO3 Solution contains µg/ml of Zn(2+) (±20 µg - 20 C) Zinc standard solution (Plasma HIQU) 10 g Zn / l 2 to 5% HCl Solution contains µg/ml of Zn(2+) (±20 µg - 20 C) Zirconium Zirconium standard solution (Plasma HIQU) g ZrOCl2.8H2O / l 2 to 5% HCl Solution contains µg/ml of Zr(4+) (±20 µg - 20 C) 100 ml 219, ml 674, ml 97, ml 299,00
19 ProductNr CL IC - Ion Chromatographie Mono Element ppm Standard Solutions (Ion HIQU) Acetate standard solution (Ion HIQU) g CH3COONa / l H2O Solution contains 1.000µg/ml of (CH3COO)- (±2 µg - 20 C) Pack Price 100 ml 63,20 CL CL CL CL CL CL CL CL CL CL CL CL CL CL CL CL Ammonia standard solution (Ion HIQU) 2.97 g NH4Cl / l H2O Solution contains 1.000µg/ml of NH4+ (±2 µg - 20 C) Bromate standard solution (Ion HIQU) g KBrO3 / l H2O Solution contains 1.000µg/ml of BrO3- (±2 µg - 20 C) Bromide standard solution (Ion HIQU) g KBr / l H2O Solution contains 1.000µg/ml of Br- (±2 µg - 20 C) Chlorate standard solution (Ion HIQU) g KClO3 / l H2O Solution contains 1.000µg/ml of ClO3- (±2 µg - 20 C) Chloride standard solution (Ion HIQU) 2.1 g KCl / l H2O Solution contains 1.000µg/ml of Cl- (±2 µg - 20 C) Chloride standard solution (Ion HIQU) g NaCl / l H2O Solution contains 1.000µg/ml of Cl- (±2 µg - 20 C) Chromate standard solution (Ion HIQU) g K2Cr2O7 / l H2O Solution contains 1.000µg/ml of CrO3 (±2 µg - 20 C) Chromate standard solution (Ion HIQU) g K2CrO4 / l H2O Solution contains 1.000µg/ml of CrO4(2-) (±2 µg - 20 C) Cyanide standard solution (Ion HIQU) g KCN / l H2O (Keep Cool!) Solution contains 1.000µg/ml of CN- (±2 µg - 20 C) Detergents(-) Anionic standard solution (Ion HIQU) 1 g TPBS / l H2O Solution contains 1.000µg/ml of TPBS (±2 µg - 20 C) Detergents(+) Kationic standard solution (Ion HIQU) 1 g CTAB / l H2O Solution contains 1.000µg/ml of CTAB (±2 µg - 20 C) Detergents(non) ionic standard solution (Ion HIQU) 1 g TRITON X-100 / l H2O Solution contains 1.000µg/ml TRITON X-100 (±2 µg - 20 C) Detergents(-) Anionic standard solution (Ion HIQU) 1 g C12H25NaO4S / l H2O Solution contains 1.000µg/ml of SDS (±2 µg - 20 C) Dichromate standard solution (Ion HIQU) g K2Cr2O7 / l H2O Solution contains 1.000µg/ml of Cr2O7(2-) (±2 µg - 20 C) Fluoride standard solution (Ion HIQU) 2.21 g NaF / l H2O Solution contains 1.000µg/ml of F- (±2 µg - 20 C) Formaldehyde standard solution (Ion HIQU) 1 g HCOH / l H2O Solution contains µg/ml of HCHO (±2 µg - 20 C) 100 ml 97, ml 130,00
20 ProductNr CL IC - Ion Chromatographie Mono Element ppm Standard Solutions (Ion HIQU) Formiate standard solution (Ion HIQU) g HCOONa / l H2O Solution contains 1.000µg/ml of (HCOO)- (±2 µg - 20 C) Pack Price 100 ml 63,20 CL CL CL CL CL CL CL CL CL CL CL CL CL CL CL CL Hardness standard solution 100 DH (Ion HIQU) g CaCO3 / l 0.4% HCl Solution contains 100 DH (±0.2 DH - 20 C) Hardness standard solution 100 FH (Ion HIQU) 1 g CaCO3 / l 0.4% HCl Solution contains 100 FH (±0.2 FH - 20 C) Hydrazine standard solution (Ion HIQU) g N2H4.H2SO4 / l H2O Solution contains 1.000µg/ml of N2H4+ (±2 µg - 20 C) Hydrogen carbonate standard solution (Ion HIQU) g NaHCO3 / l H2O Solution contains 1.000µg/ml of HCO3- (±2 µg - 20 C) Iodide standard solution (Ion HIQU) g KI / l H2O Solution contains 1.000µg/ml of I- (±2 µg - 20 C) L-Lactate standard solution (Ion HIQU) g C3H5NaO3 / l H2O Solution contains 1.000µg/ml of (C3H5O3)- (±2 µg - 20 C) Molybdate standard solution (Ion HIQU) g Na2MoO4.2H2O / l H2O Solution contains 1.000µg/ml of MoO4(2-) (±2 µg - 20 C) Nitrate standard solution (Ion HIQU) 1.63 g KNO3 / l H2O Solution contains 1.000µg/ml of NO3- (±2 µg - 20 C) Nitrite standard solution (Ion HIQU) 1.50 g NaNO2 / l H2O Solution contains 1.000µg/ml of NO2- (±2 µg - 20 C) Nitrogen standard solution (Ion HIQU) 3.81 g NH4Cl / l H2O Solution contains 1.000µg/ml of N (±2 µg - 20 C) Nitrogen standard solution (Ion HIQU) 3.81 g NH4Cl / l mol HCl Solution contains 1.000µg/ml of N (±2 µg - 20 C) Nitrogen standard solution (Ion HIQU) 9.65 g C8H9NO / l CH3OH/H2O (4/6) Solution contains 1.000µg/ml of Kjeldahl N (±2 µg - 20 C) Nitrogen standard solution (Ion HIQU) g NaNO2 / l H2O Solution contains 1.000µg/ml of N (±2 µg - 20 C) Nitrogen standard solution (Ion HIQU) g KNO3 / l H2O Solution contains 1.000µg/ml of N (±2 µg - 20 C) Nitrogen standard solution (Ion HIQU) g (NH4)2SO4 / l H2O Solution contains 1.000µg/ml of N (±2 µg - 20 C) Oxalate standard solution (Ion HIQU) g Na2C2O4 / l H2O Solution contains 1.000µg/ml of (C2O4)- (±2 µg - 20 C) 100 ml 63, ml 47, ml 63,20
21 ProductNr CL IC - Ion Chromatographie Mono Element ppm Standard Solutions (Ion HIQU) Perchlorate standard solution (Ion HIQU) g KClO4 / l H2O Solution contains 1.000µg/ml of ClO4- (±2 µg - 20 C) Pack Price CL CL CL CL CL CL CL CL Phenol standard solution (Ion HIQU) 1 g C6H5OH / l 0.4% NaOH Solution contains 1.000µg/ml of C6H5OH (±2 µg - 20 C) Phosphate standard solution (Ion HIQU) g NaNH4HPO4.4H2O / l H2O Solution contains 1.000µg/ml of PO4(3-) (±2 µg - 20 C) Propionate standard solution (Ion HIQU) g C2H5CO2Na / l H2O Solution contains 1.000µg/ml of (C2H5CO2)- (±2 µg - 20 C) Silicate standard solution (Ion HIQU) 1 g SiO2 / l 0.4% NaOH Solution contains 1.000µg/ml of SiO2 (±2 µg - 20 C) Sulfate standard solution (Ion HIQU) g Na2SO4 / l H2O Solution contains 1.000µg/ml of SO4(2-) (±2 µg - 20 C) Sulfate standard solution (Ion HIQU) g H2SO4 / l H2O Solution contains 1.000µg/ml of SO4(2-) (±2 µg - 20 C) Sulfate standard solution (Ion HIQU) g K2SO4 / l H2O Solution contains 1.000µg/ml of SO4(2-) (±2 µg - 20 C) Thiocyanate standard solution (Ion HIQU) g KCNS / l H2O Solution contains 1.000µg/ml of SCN- (±2 µg - 20 C) 100 ml 63,20
22 ProductNr CL IC - Ion Chromatographie Mono Element ppm Standard Solutions (Ion HIQU) Ammonia standard solution (Ion HIQU) 29.7 g NH4Cl / l H2O Solution contains µg/ml of NH4+ (±20 µg - 20 C) Pack Price 100 ml 53, ml 167,00 CL CL CL CL CL CL CL CL CL CL CL Bromide standard solution (Ion HIQU) g KBr / l H2O Solution contains µg/ml of Br- (±2 µg - 20 C) Chloride standard solution (Ion HIQU) 21 g KCl / l H2O Solution contains µg/ml of Cl- (±20 µg - 20 C) Fluoride standard solution (Ion HIQU) 22.1 g NaF / l H2O Solution contains µg/ml of F- (±20 µg - 20 C) Nitrate standard solution (Ion HIQU) 16.3 g KNO3 / l H2O Solution contains µg/ml of NO3- (±20 µg - 20 C) Nitrite standard solution (Ion HIQU) 15.0 g NaNO2 / l H2O Solution contains µg/ml of NO2- (±20 µg - 20 C) Nitrogen standard solution (Ion HIQU) g (NH4)2SO4 / l H2O Solution contains µg/ml of N (±20 µg - 20 C) Nitrogen standard solution (Ion HIQU) g KNO3 / l H2O Solution contains µg/ml of N (±20 µg - 20 C) Phosphate standard solution (Ion HIQU) g NaNH4HPO4.4H2O / l H2O Solution contains µg/ml of PO4(3-) (±20 µg - 20 C) Phosphate standard solution (Ion HIQU) g KH2PO4 / l H2O Solution contains µg/ml of PO4(3-) (±20 µg - 20 C) Sulfate standard solution (Ion HIQU) g Na2SO4 / l H2O Solution contains µg/ml of SO4(2-) (±20 µg - 20 C) Sulfate standard solution (Ion HIQU) g K2SO4 / l H2O Solution contains µg/ml of SO4(2-) (±20 µg - 20 C) 100 ml 53, ml 167, ml 53, ml 166, ml 19, ml 153, ml 53, ml 167, ml 53, ml 167, ml 53, ml 167, ml 53, ml 167, ml 53, ml 167, ml 53, ml 167, ml 53, ml 167, ml 53, ml 167,00
23 AAS - Atomic Absorption Mono Element ppm Standard Solutions (Spectro ECON) CL CL CL CL CL CL CL CL CL CL CL CL CL Aluminium standard solution (Spectro ECON) g AlCl3.6H2O / l H2O Solution contains 1.000µg/ml of Al(3+) (±2 µg - 20 C) Aluminium standard solution (Spectro ECON) g Al(NO3)3.9H2O / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Al(3+) (±2 µg - 20 C) Aluminium standard solution (Spectro ECON) g AlCl3.6H2O / l 2 to 5% HCl Solution contains 1.000µg/ml of Al(3+) (±2 µg - 20 C) Aluminium Antimony Antimony standard solution (Spectro ECON) g SbCl3 / l 10 to 20% HCl Solution contains 1.000µg/ml of Sb(5+) (±2 µg - 20 C) Antimony standard solution (Spectro ECON) 1 g Sb / l 2 to 5% HNO3 + traces HF Solution contains 1.000µg/ml of Sb(5+) (±2 µg - 20 C) Arsenicum Arsenicum standard solution (Spectro ECON) g NaAsO2 / l H2O Solution contains 1.000µg/ml of As(3+) (±2 µg - 20 C) Arsenicum standard solution (Spectro ECON) 1.32 g As2O3 / l 2% KOH Solution contains 1.000µg/ml of As(3+) (±2 µg - 20 C) Arsenicum standard solution (Spectro ECON) 1.32 g As2O3 / l 2 to 5% HCl Solution contains 1.000µg/ml of As(3+) (±2 µg - 20 C) Arsenicum standard solution (Spectro ECON) 1.32 g As2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of As(5+) (±2 µg - 20 C) Barium Barium standard solution (Spectro ECON) g BaCl2.2H2O / l H2O Solution contains 1.000µg/ml of Ba(2+) (±2 µg - 20 C) Barium standard solution (Spectro ECON) g Ba(NO3)2 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Ba(2+) (±2 µg - 20 C) Barium standard solution (Spectro ECON) g BaCl2.2H2O / l 2 to 5% HCl Solution contains 1.000µg/ml of Ba(2+) (±2 µg - 20 C) Beryllium Beryllium standard solution (Spectro ECON) g BeCl2 / l 2 to 5% HCl Solution contains 1.000µg/ml of Be(2+) (±2 µg - 20 C)
24 AAS - Atomic Absorption Mono Element ppm Standard Solutions (Spectro ECON) CL CL CL CL CL CL CL CL CL CL CL CL CL Beryllium standard solution (Spectro ECON) g Be(NO3)2.4H2O / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Be(2+) (±2 µg - 20 C) Bismuth standard solution (Spectro ECON) g BiO(NO3) / l~0.5 mol HNO3 Solution contains 1.000µg/ml of Bi(3+) (±2 µg - 20 C) Bismuth standard solution (Spectro ECON) g Bi(NO3)3.5H2O / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Bi(3+) (±2 µg - 20 C) Boron standard solution (Spectro ECON) g H3BO3 / l H2O Solution contains 1.000µg/ml of B(3+) (±2 µg - 20 C) Boron standard solution (Spectro ECON) 5.72 g H3BO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of B(3+) (±2 µg - 20 C) Bismuth Boron Cadmium Cadmium standard solution (Spectro ECON) g Cd(NO3)2.4H2O / l H2O Solution contains 1.000µg/ml of Cd(2+) (±2 µg - 20 C) Cadmium standard solution (Spectro ECON) g Cd(NO3)2.4H2O / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Cd(2+) (±2 µg - 20 C) Calcium Calcium standard solution (Spectro ECON) g CaCl2.2H2O / l H2O Solution contains 1.000µg/ml of Ca(2+) (±2 µg - 20 C) Calcium standard solution (Spectro ECON) g Ca(NO3)2.4H2O / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Ca(2+) (±2 µg - 20 C) Calcium standard solution (Spectro ECON) g CaCl2.2H2O / l 2 to 5% HCl Solution contains 1.000µg/ml of Ca(2+) (±2 µg - 20 C) Calcium oxide standard solution (Spectro ECON) 1.79 g CaCO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of CaO (±2 µg - 20 C) Cesium standard solution (Spectro ECON) g CsCl / l H2O Solution contains 1.000µg/ml of Cs(1+) (±2 µg - 20 C) Chromium standard solution (Spectro ECON) g K2Cr2O7 / l H2O Solution contains 1.000µg/ml of Cr(6-) (±2 µg - 20 C) Cesium Chromium
25 AAS - Atomic Absorption Mono Element ppm Standard Solutions (Spectro ECON) CL CL CL CL CL CL CL CL CL CL CL CL CL Chromium standard solution (Spectro ECON) g Cr(NO3)3.9H2O / l H2O Solution contains 1.000µg/ml of Cr(3+) (±2 µg - 20 C) Chromium standard solution (Spectro ECON) g CrCl3.6H2O / l 2 to 5% HCl Solution contains 1.000µg/ml of Cr(3+) (±2 µg - 20 C) Chromium standard solution (Spectro ECON) g Cr(NO3)3.9H2O / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Cr(3+) (±2 µg - 20 C) Cobalt Cobalt standard solution (Spectro ECON) g Co(NO3)2.6H2O / l H2O Solution contains 1.000µg/ml of Co(2+) (±2 µg - 20 C) Cobalt standard solution (Spectro ECON) g Co(NO3)2.6H2O / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Co(2+) (±2 µg - 20 C) Cobalt standard solution (Spectro ECON) g CoCl2.6H2O / l 2 to 5% HCl Solution contains 1.000µg/ml of Co(2+) (±2 µg - 20 C) Copper Copper standard solution (Spectro ECON) g Cu(NO3)2.3H2O / l H2O Solution contains 1.000µg/ml of Cu(2+) (±2 µg - 20 C) Copper standard solution (Spectro ECON) g Cu(NO3)2.3H2O / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Cu(2+) (±2 µg - 20 C) Copper standard solution (Spectro ECON) g CuCl2.2H2O/ l 2 to 5% HCl Solution contains 1.000µg/ml of Cu(2+) (±2 µg - 20 C) Indium standard solution (Spectro ECON) 1.21 g In2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of In(3+) (±2 µg - 20 C) Indium Iron Iron standard solution (Spectro ECON) g Fe(NO3)3.9H2O / l H2O Solution contains 1.000µg/ml of Fe(3+) (±2 µg - 20 C) Iron standard solution (Spectro ECON) g Fe(NO3)3.9H2O / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Fe(3+) (±2 µg - 20 C) Iron standard solution (Spectro ECON) g FeCl3.6H2O / l 2 to 5% HCl Solution contains 1.000µg/ml of Fe(3+) (±2 µg - 20 C)
26 AAS - Atomic Absorption Mono Element ppm Standard Solutions (Spectro ECON) CL CL CL CL CL CL CL CL CL CL CL CL CL Lanthanum Lanthanum standard solution (Spectro ECON) 1.18 g La2O3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of La(3+) (±2 µg - 20 C) Lead Lead standard solution (Spectro ECON) g Pb(NO3)2 / l H2O Solution contains 1.000µg/ml of Pb(2+) (±2 µg - 20 C) Lead standard solution (Spectro ECON) g Pb(NO3)2 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Pb(2+) (±2 µg - 20 C) Lithium standard solution (Spectro ECON) g LiCl / l H2O Solution contains 1.000µg/ml of Li(1+) (±2 µg - 20 C) Lithium standard solution (Spectro ECON) 5.33 g Li2CO3 / l 2 to 5% HCl Solution contains 1.000µg/ml of Li(1+) (±2 µg - 20 C) Lithium standard solution (Spectro ECON) 5.33 g Li2CO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Li(1+) (±2 µg - 20 C) Lithium Magnesium Magnesium standard solution (Spectro ECON) g MgCl2.6H2O / l H2O Solution contains 1.000µg/ml of Mg(2+) (±2 µg - 20 C) Magnesium standard solution (Spectro ECON) g Mg(NO3)2.6H2O / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Mg(2+) (±2 µg - 20 C) Magnesium standard solution (Spectro ECON) g MgCl2.6H2O / l 2 to 5% HCl Solution contains 1.000µg/ml of Mg(2+) (±2 µg - 20 C) Magnesium oxide standard solution (Spectro ECON) g Mg / l 2 to 5% HNO3 Solution contains 1.000µg/ml of MgO (±2 µg - 20 C) Manganese Manganese standard solution (Spectro ECON) g Mn(NO3)2.4H2O / l H2O Solution contains 1.000µg/ml of Mn(2+) (±2 µg - 20 C) Manganese standard solution (Spectro ECON) g Mn(NO3)2.4H2O / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Mn(2+) (±2 µg - 20 C) Manganese standard solution (Spectro ECON) g MnCl2.4H2O / l 2 to 5% HCl Solution contains 1.000µg/ml of Mn(2+) (±2 µg - 20 C)
27 AAS - Atomic Absorption Mono Element ppm Standard Solutions (Spectro ECON) CL CL CL CL CL CL CL CL CL CL CL CL CL Mercury Mercury standard solution (Spectro ECON) g Hg(NO3)2.1H2O / l H2O Solution contains 1.000µg/ml of Hg(2+) (±2 µg - 20 C) Mercury standard solution (Spectro ECON) g Hg(NO3)2.1H2O/ l 2 to 5% HNO3 Solution contains 1.000µg/ml of Hg(2+) (±2 µg - 20 C) Molybdenum Molybdenum standard solution (Spectro ECON) 1 g Mo / l 2 to 5% HNO3 + traces HF Solution contains 1.000µg/ml of Mo(6+) (±2 µg - 20 C) Nickel standard solution (Spectro ECON) g Ni(NO3)2.6H2O / l H2O Solution contains 1.000µg/ml of Ni(2+) (±2 µg - 20 C) Nickel standard solution (Spectro ECON) g Ni(NO3)2.6H2O/ l 2 to 5% HNO3 Solution contains 1.000µg/ml of Ni(2+) (±2 µg - 20 C) Nickel standard solution (Spectro ECON) g NiCl2.6H2O / l 2 to 5% HCl Solution contains 1.000µg/ml of Ni(2+) (±2 µg - 20 C) Nickel Niobium standard solution (Spectro ECON) 1 g Nb / l 5% HF Solution contains 1.000µg/ml of Nb(5+) (±2 µg - 20 C) Phosphorus standard solution (Spectro ECON) g H3PO4 / l H2O Solution contains 1.000µg/ml of P (±2 µg - 20 C) Phosphorus standard solution (Spectro ECON) g (NH4)2HPO4 / l H2O Solution contains 1.000µg/ml of P (±2 µg - 20 C) Niobium Phosphorus Phosphorus pentoxide standard solution (Spectro ECON) g H3PO4 / l H2O Solution contains 1.000µg/ml of P2O5 (±2 µg - 20 C) Potassium standard solution (Spectro ECON) g KCl / l H2O Solution contains 1.000µg/ml of K(1+) (±2 µg - 20 C) Potassium standard solution (Spectro ECON) g KNO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of K(1+) (±2 µg - 20 C) Potassium standard solution (Spectro ECON) g KCl / l 2 to 5% HCl Solution contains 1.000µg/ml of K(1+) (±2 µg - 20 C) Potassium
28 AAS - Atomic Absorption Mono Element ppm Standard Solutions (Spectro ECON) CL CL CL CL CL CL CL CL CL CL CL CL CL Potassium oxide standard solution (Spectro ECON) 2.15 g KNO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of K2O (±2 µg - 20 C) Rubidium Rubidium standard solution (Spectro ECON) g RbCl / l H2O Solution contains 1.000µg/ml of Rb(1+) (±2 µg - 20 C) Selenium Selenium standard solution (Spectro ECON) 1 g Se / l 10% HCl Solution contains 1.000µg/ml of Se(4+) (±2 µg - 20 C) Selenium standard solution (Spectro ECON) 1 g Se / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Se(4+) (±2 µg - 20 C) Silicium standard solution (Spectro ECON) 2.14 g SiO2 / l 2% KOH Solution contains 1.000µg/ml of Si(4+) (±2 µg - 20 C) Silicium Silver Silver standard solution (Spectro ECON) g AgNO3 / l H2O Solution contains 1.000µg/ml of Ag(1+) (±2 µg - 20 C) Silver standard solution (Spectro ECON) g AgNO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Ag(1+) (±2 µg - 20 C) Sodium Sodium standard solution (Spectro ECON) g NaCl / l H2O Solution contains 1.000µg/ml of Na(1+) (±2 µg - 20 C) Sodium standard solution (Spectro ECON) g NaCl / l 2 to 5% HCl Solution contains 1.000µg/ml of Na(1+) (±2 µg - 20 C) Sodium standard solution (Spectro ECON) g NaNO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Na(1+) (±2 µg - 20 C) Sodium oxide standard solution (Spectro ECON) 2.75 g NaNO3 / l 2 to 5% HNO3 Solution contains 1.000µg/ml of Na2O (±2 µg - 20 C) Strontium Strontium standard solution (Spectro ECON) g Sr(NO3)2 / l H2O Solution contains 1.000µg/ml of Sr(2+) (±2 µg - 20 C) Strontium standard solution (Spectro ECON) g SrCl2.6H2O / l 2 to 5% HCl Solution contains 1.000µg/ml of Sr(2+) (±2 µg - 20 C) 500 ml 35,20
XIX. Chemistry, High School
XIX. Chemistry, High School High School Chemistry Test The spring 05 high school Chemistry test was based on learning standards in the Chemistry content strand of the Massachusetts Science and Technology/Engineering
More informationChapter 2 Lecture Notes: Atoms
Educational Goals Chapter 2 Lecture Notes: Atoms 1. Describe the subatomic structure of an atom. 2. Define the terms element and atomic symbol. 3. Understand how elements are arranged in the periodic table
More informationCandidate Number. Other Names
Centre Number Surname Notice to Candidate. The work you submit for assessment must be your own. If you copy from someone else or allow another candidate to copy from you or if you cheat in any other way,
More informationCandidate Number. Other Names
Centre Number Surname Candidate Signature Candidate Number Other Names Notice to Candidate. The work you submit for assessment must be your own. If you copy from someone else or allow another candidate
More informationNomenclature and Formulas of Ionic Compounds. Section I: Writing the Name from the Formula
Purpose: Theory: Nomenclature and Formulas of Ionic Compounds 1. To become familiar with the rules of chemical nomenclature, based on the classification of compounds. 2. To write the proper name of the
More informationAll answers must use the correct number of significant figures, and must show units!
CHEM 10113, Quiz 2 September 7, 2011 Name (please print) All answers must use the correct number of significant figures, and must show units! IA Periodic Table of the Elements VIIIA (1) (18) 1 2 1 H IIA
More informationGrade 8 FCAT 2.0 Science Sample Questions
Grade FCAT 2.0 Science Sample Questions The intent of these sample test materials is to orient teachers and students to the types of questions on FCAT 2.0 tests. By using these materials, students will
More informationDecomposition. Composition
Decomposition 1. Solid ammonium carbonate is heated. 2. Solid calcium carbonate is heated. 3. Solid calcium sulfite is heated in a vacuum. Composition 1. Barium oxide is added to distilled water. 2. Phosphorus
More informationMoles, Molecules, and Grams Worksheet Answer Key
Moles, Molecules, and Grams Worksheet Answer Key 1) How many are there in 24 grams of FeF 3? 1.28 x 10 23 2) How many are there in 450 grams of Na 2 SO 4? 1.91 x 10 24 3) How many grams are there in 2.3
More informationProblem Solving. Mole Concept
Skills Worksheet Problem Solving Mole Concept Suppose you want to carry out a reaction that requires combining one atom of iron with one atom of sulfur. How much iron should you use? How much sulfur? When
More informationNomenclature Packet. 1. Name the following ionic compounds: a. Al 2 O 3 Aluminum oxide. b. Cs 2 O Cesium oxide. c. Rb 3 N Rubidium nitride
Nomenclature Packet Worksheet I: Binary Ionic Compounds (representative metals) metals from groups 1A, 2A, and 3A (1, 2, and 13) have constant charges as ions and do NOT get Roman Numerals in their names
More informationCLASS TEST GRADE 11. PHYSICAL SCIENCES: CHEMISTRY Test 6: Chemical change
CLASS TEST GRADE PHYSICAL SCIENCES: CHEMISTRY Test 6: Chemical change MARKS: 45 TIME: hour INSTRUCTIONS AND INFORMATION. Answer ALL the questions. 2. You may use non-programmable calculators. 3. You may
More informationTOPIC 1. ELEMENTS, COMPOUNDS AND MIXTURES.
TOPIC 1. ELEMENTS, COMPOUNDS AND MIXTURES. What is chemistry? Chemistry is the study of matter and the interconversion of matter. Matter is anything which has mass and occupies a volume. Sciences often
More informationChemistry CP Unit 2 Atomic Structure and Electron Configuration. Learning Targets (Your exam at the end of Unit 2 will assess the following:)
Chemistry CP Unit 2 Atomic Structure and Electron Learning Targets (Your exam at the end of Unit 2 will assess the following:) 2. Atomic Structure and Electron 2-1. Give the one main contribution to the
More informationB I N G O B I N G O. Hf Cd Na Nb Lr. I Fl Fr Mo Si. Ho Bi Ce Eu Ac. Md Co P Pa Tc. Uut Rh K N. Sb At Md H. Bh Cm H Bi Es. Mo Uus Lu P F.
Hf Cd Na Nb Lr Ho Bi Ce u Ac I Fl Fr Mo i Md Co P Pa Tc Uut Rh K N Dy Cl N Am b At Md H Y Bh Cm H Bi s Mo Uus Lu P F Cu Ar Ag Mg K Thomas Jefferson National Accelerator Facility - Office of cience ducation
More informationNomenclature of Ionic Compounds
Nomenclature of Ionic Compounds Ionic compounds are composed of ions. An ion is an atom or molecule with an electrical charge. Monatomic ions are formed from single atoms that have gained or lost electrons.
More informationNaming Ionic Compounds
Naming Ionic Compounds I. Naming Ions A. Cations (+ions) 1. Element name followed by "ion" (when in Group IA, IIA, Al 3+, Ga 3+, Zn 2+, Cd 2+, Ag +, Ni 2+ ). Na + sodium ion, K + potassium ion, Al 3+ aluminum
More informationChemistry Reference Tables
Chemistry Reference Tables Name Value Avogadro s number 6.0 10 particles/mole 0.081 L atm mole K Gas constant (R) 6. L mmg mole K 8.1 L kpa mole K Standard pressure 1.00 atm = 101. kpa = 760. mmg = 760.
More informationEssential Elements Of Tree Health
Essential Elements Of Tree Health by Dr. Kim D. Coder Warnell School of Forestry & Natural Resources University of Georgia September 2009 H 1 Li Be B C N O F 3 4 5 6 7 8 9 Na Mg Al Si P S Cl 11 12 13 14
More informationMonday 25 June 2012 Afternoon
THIS IS A NEW SPECIFICATION H Monday 25 June 2012 Afternoon GCSE TWENTY FIRST CENTURY SCIENCE CHEMISTRY A A172/02 Modules C4 C5 C6 (Higher Tier) *A135370612* Candidates answer on the Question Paper. A
More informationBalancing Chemical Equations Worksheet
Balancing Chemical Equations Worksheet Student Instructions 1. Identify the reactants and products and write a word equation. 2. Write the correct chemical formula for each of the reactants and the products.
More informationNaming Compounds Handout Key
Naming Compounds Handout Key p. 2 Name each of the following monatomic cations: Li + = lithium ion Ag + = silver ion Cd +2 = cadmium ion Cu +2 = copper (II) ion Al +3 = aluminum ion Mg +2 = magnesium ion
More informationDavid A. Katz Chemist, Educator, Science Communicator, and Consultant Department of Chemistry, Pima Community College
WRITING CHEMICAL EQUATIONS 2004, 2002, 1989 by David A. Katz. All rights reserved. Permission for classroom used provided original copyright is included. David A. Katz Chemist, Educator, Science Communicator,
More informationMonatomic Ions. A. Monatomic Ions In order to determine the charge of monatomic ions, you can use the periodic table as a guide:
Monatomic Ions Ions are atoms that have either lost or gained electrons. While atoms are neutral, ions are charged particles. A loss of electrons results in a positive ion or cation (pronounced cat-eye-on
More informationPhase Diagrams for Binary Alloys
Desk Handbook Phase Diagrams for Binary Alloys Second Edition Hiroaki Okamoto ASM International Materials Park, Ohio 44073-0002 www.asminternational.org Copyright 2010 by ASM International All rights reserved
More informationChemistry Themed. Types of Reactions
Chemistry Themed Types of Reactions 1 2 Chemistry in the Community-2015-2016 Types of Reactions Date In-Class Assignment Homework T 10/20 TEST on Reactivity of Metals and Redox None W 10/21 Late Start
More informationPolyatomic Ions Worksheet. 2. Name or write the formula for the following Type I polyatomic ionic compounds
Polyatomic Ions Worksheet Polyatomic Practice 1. Name or write the formula for the following polyatomic ions sulfate - CO nitrite MnO perphosphate - SO hypoiodite BrO chlorite - CO phosphite - PO percarbonate
More information47374_04_p25-32.qxd 2/9/07 7:50 AM Page 25. 4 Atoms and Elements
47374_04_p25-32.qxd 2/9/07 7:50 AM Page 25 4 Atoms and Elements 4.1 a. Cu b. Si c. K d. N e. Fe f. Ba g. Pb h. Sr 4.2 a. O b. Li c. S d. Al e. H f. Ne g. Sn h. Au 4.3 a. carbon b. chlorine c. iodine d.
More informationAPPENDIX B: EXERCISES
BUILDING CHEMISTRY LABORATORY SESSIONS APPENDIX B: EXERCISES Molecular mass, the mole, and mass percent Relative atomic and molecular mass Relative atomic mass (A r ) is a constant that expresses the ratio
More informationFor children under age 6 60 mcg 6 mcg For children 7 and up 150 mcg 15 mcg For Adults 750 mcg 75 mcg
There is a report from ConsumerLabs.com that says the SuperGreens has high amounts of Lead. Is this true? Response: We would like to answer this report in detail. As the report indicates, several green
More informationB) atomic number C) both the solid and the liquid phase D) Au C) Sn, Si, C A) metal C) O, S, Se C) In D) tin D) methane D) bismuth B) Group 2 metal
1. The elements on the Periodic Table are arranged in order of increasing A) atomic mass B) atomic number C) molar mass D) oxidation number 2. Which list of elements consists of a metal, a metalloid, and
More informationChapter 8 Atomic Electronic Configurations and Periodicity
Chapter 8 Electron Configurations Page 1 Chapter 8 Atomic Electronic Configurations and Periodicity 8-1. Substances that are weakly attracted to a magnetic field but lose their magnetism when removed from
More informationTuesday 22 January 2013 Morning
THIS IS A NEW SPECIFICATION F Tuesday 22 January 2013 Morning GCSE TWENTY FIRST CENTURY SCIENCE CHEMISTRY A A172/01 Modules C4 C5 C6 (Foundation Tier) *A135770113* Candidates answer on the Question Paper.
More information= 11.0 g (assuming 100 washers is exact).
CHAPTER 8 1. 100 washers 0.110 g 1 washer 100. g 1 washer 0.110 g = 11.0 g (assuming 100 washers is exact). = 909 washers 2. The empirical formula is CFH from the structure given. The empirical formula
More information100% ionic compounds do not exist but predominantly ionic compounds are formed when metals combine with non-metals.
2.21 Ionic Bonding 100% ionic compounds do not exist but predominantly ionic compounds are formed when metals combine with non-metals. Forming ions Metal atoms lose electrons to form +ve ions. Non-metal
More informationUnit 10A Stoichiometry Notes
Unit 10A Stoichiometry Notes Stoichiometry is a big word for a process that chemist s use to calculate amounts in reactions. It makes use of the coefficient ratio set up by balanced reaction equations
More informationChem 115 POGIL Worksheet - Week 4 Moles & Stoichiometry Answers
Key Questions & Exercises Chem 115 POGIL Worksheet - Week 4 Moles & Stoichiometry Answers 1. The atomic weight of carbon is 12.0107 u, so a mole of carbon has a mass of 12.0107 g. Why doesn t a mole of
More informationHOMEWORK 4A. Definitions. Oxidation-Reduction Reactions. Questions
HOMEWORK 4A Oxidation-Reduction Reactions 1. Indicate whether a reaction will occur or not in each of following. Wtiring a balcnced equation is not necessary. (a) Magnesium metal is added to hydrochloric
More informationFind a pair of elements in the periodic table with atomic numbers less than 20 that are an exception to the original periodic law.
Example Exercise 6.1 Periodic Law Find the two elements in the fifth row of the periodic table that violate the original periodic law proposed by Mendeleev. Mendeleev proposed that elements be arranged
More informationCHAPTER 5: MOLECULES AND COMPOUNDS
CHAPTER 5: MOLECULES AND COMPOUNDS Problems: 1-6, 9-13, 16, 20, 31-40, 43-64, 65 (a,b,c,e), 66(a-d,f), 69(a-d,f), 70(a-e), 71-78, 81-82, 87-96 A compound will display the same properties (e.g. melting
More information8. Relax and do well.
CHEM 1314 3:30 pm Section Exam II ohn II. Gelder October 16, 2002 Name TA's Name Lab Section INSTRUCTIONS: 1. This examination consists of a total of 8 different pages. The last three pages include a periodic
More informationMonday 25 June 2012 Afternoon
THIS IS A NEW SPECIFICATION F Monday 25 June 2012 Afternoon GCSE TWENTY FIRST CENTURY SCIENCE CHEMISTRY A A172/01 Modules C4 C5 C6 (Foundation Tier) *A135360612* Candidates answer on the Question Paper.
More informationTexas Commission on Environmental Quality
Matrix: Drinking Water Method EPA 1603 (modified mtec) AB ID Method ID Escherichia coli (enumeration) TX 2525 10236201 Method EPA 200.5 AB ID Method ID Arsenic TX 1010 10213975 Beryllium TX 1020 10213975
More informationSOFIA UNIVERSITY ST. KLIMENT OHRIDSKI Faculty:...Chemistry and Pharmacy... Subject area: (code and name) C H L 3 8 2 4 1 3
Approved by:.. Dean Date... SOFIA UNIVERSITY ST. KLIMENT OHRIDSKI Faculty:...Chemistry and Pharmacy... Subject area: (code and name) C H L 3 8 3...Pharmacy... M.Sc. Program: (code and name) C H L 3 8 3...Pharmacy...
More informationPeriodic Table, Valency and Formula
Periodic Table, Valency and Formula Origins of the Periodic Table Mendelѐѐv in 1869 proposed that a relationship existed between the chemical properties of elements and their atomic masses. He noticed
More informationWriting and Balancing Chemical Equations
Name Writing and Balancing Chemical Equations Period When a substance undergoes a chemical reaction, chemical bonds are broken and new bonds are formed. This results in one or more new substances, often
More informationTuesday 22 January 2013 Morning
THIS IS A NEW SPECIFICATION H Tuesday 22 January 2013 Morning GCSE TWENTY FIRST CENTURY SCIENCE CHEMISTRY A A172/02 Modules C4 C5 C6 (Higher Tier) *A135780113* Candidates answer on the Question Paper.
More informationABSOLUTE STANDARDS, INC.
Single Component Solutions: Pages 10-13 ISO/ IEC 17025 ABSOLUTE STANDARDS, INC. World Class Manufacturing & Internationally Recognized Quality As Absolute Standards enters the latter half of our second
More informationChem 115 POGIL Worksheet - Week 4 Moles & Stoichiometry
Chem 115 POGIL Worksheet - Week 4 Moles & Stoichiometry Why? Chemists are concerned with mass relationships in chemical reactions, usually run on a macroscopic scale (grams, kilograms, etc.). To deal with
More informationMolar Mass Worksheet Answer Key
Molar Mass Worksheet Answer Key Calculate the molar masses of the following chemicals: 1) Cl 2 71 g/mol 2) KOH 56.1 g/mol 3) BeCl 2 80 g/mol 4) FeCl 3 162.3 g/mol 5) BF 3 67.8 g/mol 6) CCl 2 F 2 121 g/mol
More informationCalculating Molar Mass of a Compound
Instructions for Conversion Problems For every conversion problem Write the number in the problem down with unit and a multiplication sign Decide which conversion factor you should use, Avagadro s or molar
More informationProblem Solving. Mole Concept
Skills Worksheet Problem Solving Mole Concept Suppose you want to carry out a reaction that requires combining one atom of iron with one atom of sulfur. How much iron should you use? How much sulfur? When
More informationWRITING CHEMICAL FORMULA
WRITING CHEMICAL FORMULA For ionic compounds, the chemical formula must be worked out. You will no longer have the list of ions in the exam (like at GCSE). Instead you must learn some and work out others.
More informationSCH 4C1 Unit 2 Problem Set Questions taken from Frank Mustoe et all, "Chemistry 11", McGraw-Hill Ryerson, 2001
SCH 4C1 Unit 2 Problem Set Questions taken from Frank Mustoe et all, "Chemistry 11", McGraw-Hill Ryerson, 2001 1. A small pin contains 0.0178 mol of iron. How many atoms of iron are in the pin? 2. A sample
More informationNAMING QUIZ 3 - Part A Name: 1. Zinc (II) Nitrate. 5. Silver (I) carbonate. 6. Aluminum acetate. 8. Iron (III) hydroxide
NAMING QUIZ 3 - Part A Name: Write the formulas for the following compounds: 1. Zinc (II) Nitrate 2. Manganese (IV) sulfide 3. Barium permanganate 4. Sulfuric acid 5. Silver (I) carbonate 6. Aluminum acetate
More information1. When the following equation is balanced, the coefficient of Al is. Al (s) + H 2 O (l)? Al(OH) 3 (s) + H 2 (g)
1. When the following equation is balanced, the coefficient of Al is. Al (s) + H 2 O (l)? Al(OH) (s) + H 2 (g) A) 1 B) 2 C) 4 D) 5 E) Al (s) + H 2 O (l)? Al(OH) (s) + H 2 (g) Al (s) + H 2 O (l)? Al(OH)
More informationName: Block: Date: Test Review: Chapter 8 Ionic Bonding
Name: Block: Date: Test Review: Chapter 8 Ionic Bonding Part 1: Fill-in-the-blank. Choose the word from the word bank below. Each word may be used only 1 time. electron dot structure metallic electronegativity
More informationProblem Solving. Percentage Composition
Skills Worksheet Problem Solving Percentage Composition Suppose you are working in an industrial laboratory. Your supervisor gives you a bottle containing a white crystalline compound and asks you to determine
More informationThe Mole. Chapter 2. Solutions for Practice Problems
Chapter 2 The Mole Note to teacher: You will notice that there are two different formats for the Sample Problems in the student textbook. Where appropriate, the Sample Problem contains the full set of
More informationTutorial 2 FORMULAS, PERCENTAGE COMPOSITION, AND THE MOLE
T-6 Tutorial 2 FORMULAS, PERCENTAGE COMPOSITION, AND THE MOLE FORMULAS: A chemical formula shows the elemental composition of a substance: the chemical symbols show what elements are present and the numerical
More informationName: Class: Date: 2 4 (aq)
Name: Class: Date: Unit 4 Practice Test Multiple Choice Identify the choice that best completes the statement or answers the question. 1) The balanced molecular equation for complete neutralization of
More informationneutrons are present?
AP Chem Summer Assignment Worksheet #1 Atomic Structure 1. a) For the ion 39 K +, state how many electrons, how many protons, and how many 19 neutrons are present? b) Which of these particles has the smallest
More informationThursday 17 January 2013 Afternoon
THIS IS A NEW SPECIFICATION H Thursday 17 January 2013 Afternoon GCSE TWENTY FIRST CENTURY SCIENCE CHEMISTRY A A171/02 Modules C1 C2 C3 (Higher Tier) *A131480113* Candidates answer on the Question Paper.
More informationX-RAY DATA BOOKLET Center for X-ray Optics and Advanced Light Source Lawrence Berkeley National Laboratory
X-Ray Data Booklet X-RAY DATA BOOKLET Center for X-ray Optics and Advanced Light Source Lawrence Berkeley National Laboratory Introduction X-Ray Properties of Elements Now Available Order X-Ray Data Booklet
More informationPeriodic Table Questions
Periodic Table Questions 1. The elements characterized as nonmetals are located in the periodic table at the (1) far left; (2) bottom; (3) center; (4) top right. 2. An element that is a liquid at STP is
More informationSolution. Practice Exercise. Concept Exercise
Example Exercise 8.1 Evidence for a Reaction Which of the following is experimental evidence for a chemical reaction? (a) Pouring vinegar on baking soda gives foamy bubbles. (b) Mixing two solutions produces
More informationStudy Guide For Chapter 7
Name: Class: Date: ID: A Study Guide For Chapter 7 Multiple Choice Identify the choice that best completes the statement or answers the question. 1. The number of atoms in a mole of any pure substance
More informationChapter 6 Notes Science 10 Name:
6.1 Types of Chemical Reactions a) Synthesis (A + B AB) Synthesis reactions are also known as reactions. When this occurs two or more reactants (usually elements) join to form a. A + B AB, where A and
More informationH 2 + O 2 H 2 O. - Note there is not enough hydrogen to react with oxygen - It is necessary to balance equation.
CEMICAL REACTIONS 1 ydrogen + Oxygen Water 2 + O 2 2 O reactants product(s) reactant substance before chemical change product substance after chemical change Conservation of Mass During a chemical reaction,
More informationNaming Compounds. There are three steps involved in naming ionic compounds- naming the cation, naming the anion, and naming the entire compound.
Naming Compounds Naming compounds is an important part of chemistry. Most compounds fall in to one of three categories ionic compounds, molecular compounds, or acids. Part One: Naming Ionic Compounds Identifying
More informationChemistry: Chemical Equations
Chemistry: Chemical Equations Write a balanced chemical equation for each word equation. Include the phase of each substance in the equation. Classify the reaction as synthesis, decomposition, single replacement,
More informationChemical Equations. Chemical Equations. Chemical reactions describe processes involving chemical change
Chemical Reactions Chemical Equations Chemical reactions describe processes involving chemical change The chemical change involves rearranging matter Converting one or more pure substances into new pure
More informationb. N 2 H 4 c. aluminum oxalate d. acetic acid e. arsenic PART 2: MOLAR MASS 2. Determine the molar mass for each of the following. a. ZnI 2 b.
CHEMISTRY DISCOVER UNIT 5 LOTS OF PRACTICE ON USING THE MOLE!!! PART 1: ATOMIC MASS, FORMULA MASS, OR MOLECULAR MASS 1. Determine the atomic mass, formula mass, or molecular mass for each of the following
More informationELECTRON CONFIGURATION (SHORT FORM) # of electrons in the subshell. valence electrons Valence electrons have the largest value for "n"!
179 ELECTRON CONFIGURATION (SHORT FORM) - We can represent the electron configuration without drawing a diagram or writing down pages of quantum numbers every time. We write the "electron configuration".
More informationEnglish already has many collective nouns for fixed, given numbers of objects. Some of the more common collective nouns are shown in Table 7.1.
96 Chapter 7: Calculations with Chemical Formulas and Chemical Reactions Chemical reactions are written showing a few individual atoms or molecules reacting to form a few atoms or molecules of products.
More informationNaming Ionic Compounds Answer Key
Naming Ionic Compounds Answer Key Give the name of the following ionic compounds: Name 1) Na 2 CO 3 sodium carbonate 2) NaOH sodium hydroxide 3) MgBr 2 magnesium bromide 4) KCl potassium chloride 5) FeCl
More informationChapter 11. Electrochemistry Oxidation and Reduction Reactions. Oxidation-Reduction Reactions. Oxidation-Reduction Reactions
Oxidation-Reduction Reactions Chapter 11 Electrochemistry Oxidation and Reduction Reactions An oxidation and reduction reaction occurs in both aqueous solutions and in reactions where substances are burned
More information1332 CHAPTER 18 Sample Questions
1332 CHAPTER 18 Sample Questions Couple E 0 Couple E 0 Br 2 (l) + 2e 2Br (aq) +1.06 V AuCl 4 + 3e Au + 4Cl +1.00 V Ag + + e Ag +0.80 V Hg 2+ 2 + 2e 2 Hg +0.79 V Fe 3+ (aq) + e Fe 2+ (aq) +0.77 V Cu 2+
More informationCambridge International Advanced Subsidiary and Advanced Level in Chemistry (9701)
Cambridge International Advanced Subsidiary and Advanced Level in Chemistry (9701) For use from 2016 in all papers for the above syllabus, except practical examinations. CSTxxx ** Contents: Tables of Chemical
More informationChem 1000A Final Examination - Solutions
Chem 1000A Final Eamination - Solutions April 15 th, 2003: 9:00 to 12.00 am Your name Instructor: Dr. M. Gerken Student ID Time: 3h No. of pages: 3 + 1 Report all your answers using significant figures.
More informationXIX. Chemistry, High School
XIX. Chemistry, High School High School Chemistry Test The spring 2013 high school Chemistry test was based on learning standards in the Chemistry content strand of the Massachusetts Science and Technology/Engineering
More informationCHEMICAL NAMES AND FORMULAS
9 CHEMICAL NAMES AND FORMULAS SECTION 9.1 NAMING IONS (pages 253 258) This section explains the use of the periodic table to determine the charge of an ion. It also defines polyatomic ion and gives the
More informationChapter 6: Writing and Balancing Chemical Equations. AB A + B. CaCO3 CaO + CO2 A + B C. AB + C AC + B (or AB + C CB + A)
78 Chapter 6: Writing and Balancing Chemical Equations. It is convenient to classify chemical reactions into one of several general types. Some of the more common, important, reactions are shown below.
More informationMODERN ATOMIC THEORY AND THE PERIODIC TABLE
CHAPTER 10 MODERN ATOMIC THEORY AND THE PERIODIC TABLE SOLUTIONS TO REVIEW QUESTIONS 1. Wavelength is defined as the distance between consecutive peaks in a wave. It is generally symbolized by the Greek
More information2) How many significant figures are in the measurement, 0.0005890 g? A) 4 B) 8 C) 6 D) 7 E) 5
Chem. 1A Exam 1 Practice Problems: This is not a "practice test", these are sample questions that will verify your readiness to take the exam. If you can complete these problems without help from your
More informationTHE SCALE OF THE ELECTRON
THE SCALE OF THE ELECTRON Explaining the Atomic Dynamics Johan Oldenkamp The Scale of the Electron Explaining the Atomic Dynamics First, Digital Edition, October 9 th, 2012 Second, Digital Edition, October
More informationPolyatomic ions can form ionic compounds just as monatomic ions.
1 POLYATOMIC IONS We have seen that atoms can lose or gain electrons to become ions. Groups of atoms can also become ions. These groups of atoms are called polyatomic ions. Examples: O hydroxide ion NO
More informationAqueous Ions and Reactions
Aqueous Ions and Reactions (ions, acids, and bases) Demo NaCl(aq) + AgNO 3 (aq) AgCl (s) Two clear and colorless solutions turn to a cloudy white when mixed Demo Special Light bulb in water can test for
More informationDetermination of elements by ICP-AES and ICP-MS
September 2003 HORIZONTAL - 19 Determination of elements by ICP-AES and ICP-MS Henk J van de Wiel National Institute of Public Health and the Environment (RIVM) Bilthoven, The Netherlands 1 HORIZONTAL
More informationExperiment 1 Chemical Reactions and Net Ionic Equations
Experiment 1 Chemical Reactions and Net Ionic Equations I. Objective: To predict the products of some displacement reactions and write net ionic equations. II. Chemical Principles: A. Reaction Types. Chemical
More informationUnit 9 Stoichiometry Notes (The Mole Continues)
Unit 9 Stoichiometry Notes (The Mole Continues) is a big word for a process that chemist s use to calculate amounts in reactions. It makes use of the coefficient ratio set up by balanced reaction equations
More informationICP Periodic Table Guide
ICP Periodic Table Guide Inorganic Ventures has over twenty-five years experience specializing in the manufacturing of inorganic certified reference materials (CRMs) and nearly a decade accredited to ISO
More informationAMG Mining Mibra Mine Update. By Itamar Resende October 2011
AMG Mining Mibra Mine Update By Itamar Resende October 2011 Cautionary Note THIS DOCUMENT IS STRICTLY CONFIDENTIAL AND IS BEING PROVIDED TO YOU SOLELY FOR YOUR INFORMATION BY AMG ADVANCED METALLURGICAL
More informationFrom Quantum to Matter 2006
From Quantum to Matter 006 Why such a course? Ronald Griessen Vrije Universiteit, Amsterdam AMOLF, May 4, 004 vrije Universiteit amsterdam Why study quantum mechanics? From Quantum to Matter: The main
More informationDescription of the Mole Concept:
Description of the Mole Concept: Suppose you were sent into the store to buy 36 eggs. When you picked them up you would get 3 boxes, each containing 12 eggs. You just used a mathematical device, called
More informationCertipur Standard reference materials and buffers. Not all reference materials are the same
Certipur Standard reference materials and buffers Not all reference materials are the same Certipur Standard reference materials and buffers In order to obtain accurate analytical results, it is essential
More information6 Reactions in Aqueous Solutions
6 Reactions in Aqueous Solutions Water is by far the most common medium in which chemical reactions occur naturally. It is not hard to see this: 70% of our body mass is water and about 70% of the surface
More informationUnit 6. Chapter 10: The MOLE! Date In Class Homework. % Composition & Calculating Empirical Formulas
Date In Class Homework 10/22 Thur Counting By Mass Lab 10/23 Fri (mole day!!!) THE MOLE! in room 137 10/26 Mon (LSM) More on the Mole Watch empirical and molecular formula video. 10/27 Tue % Composition
More informationCHAPTER 9. 9.1 Naming Ions. Chemical Names and Formulas. Naming Transition Metals. Ions of Transition Metals. Ions of Transition Metals
CHAPTER 9 Chemical Names and Formulas 9.1 Naming Ions Monatomic Ions: a single atom with a positive or negative charge Cation (rules): listed first Anion (rules): ide ending Transition Metals have a varying
More informationBalancing Chemical Equations Practice
Science Objectives Students will describe what reactants and products in a chemical equation mean. Students will explain the difference between coefficients and subscripts in chemical equations. Students
More information