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What is a good conductor of electicity a. Arsenic b.Bromine c.Phosphorous d.Selenium e.Sulfur?

Updated: 11/19/2022
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Q: What is a good conductor of electicity a. Arsenic b.Bromine c.Phosphorous d.Selenium e.Sulfur?
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Which of these elements is not a noble gas aneon bbromine chelium dkrypton?

b.Bromine

What are most of the elements on the peroiodic table?

Actinium - AcAluminum - AlAmericium - AmAntimony - SbArgon - ArArsenic - AsAstatine - AtBarium - BaBerkelium - BkBeryllium - BeBismuth - BiBoron - BBromine - BrCadmium - CdCaesium - CsCalcium - CaCalifornium - CfCarbon - CCerium - CeChlorine - ClChromium - CrCobalt - CoCopper - CuCurium - CmDysprosium - DyEinsteinium - EsErbium - ErEuropium - EuFermium - FmFluorine - FFrancium - FrGadolinium - GdGallium - GaGermanium - GeGold - AuHafnium - HfHelium - HeHolmium - HoHydrogen - HIndium - InIodine - IIridium - IrIron - FeKrypton - KrLanthanum - LaLawrencium - LrLead - PbLithium - LiLutetium - LuMagnesium - MgManganese - MnMeitnerium - MtMendelevium - MdMercury - HgMolybdenum - MoNeodymium - NdNeon - NeNeptunium - NpNickel - NiNiobium - NbNitrogen - NNobelium - NoOsmium - OsOxygen - OPalladium - PdPhosphorus - PPlatinum - PtPlutonium - PuPolonium - PoPotassium - KPraseodymium - PrPromethium - PmProtactinium - PaRadium - RaRadon - RnRhenium - ReRhodium - RhRubidium - RbRuthenium - RuSamarium - SmScandium - ScSelenium - SeSilicon - SiSilver - AgSodium - NaStrontium - SrSulphur - STantalum - TaTechnetium - TcTellurium - TeTerbium - TbThallium - TlThorium - ThThulium - TmTin - SnTitanium - TiTungsten - WUnnilhexium - UnhUnniloctium - UnoUnnilpentium - UnpUnnilquadium - UnqUnnilseptium - UnsUranium - UVanadium - VXenon - XeYtterbium - YbYttrium - YZinc - ZnZirconium - Zr

What are the elements of the periodic table?

See related links.In the periodic table there are alot of element such as:Actinium - AcAluminum - AlAmericium - AmAntimony - SbArgon - ArArsenic - AsAstatine - AtBarium - BaBerkelium - BkBeryllium - BeBismuth - BiBoron - BBromine - BrCadmium - CdCaesium - CsCalcium - CaThese can be danderousCalifornium - CfCarbon - CCerium - CeChlorine - ClChromium - CrCobalt - CoCopper - CuCurium - CmDysprosium - DyEinsteinium - EsErbium - ErEuropium - EuFermium - FmFluorine - FFrancium - FrGadolinium - GdGallium - GaGermanium - GeGold - AuHafnium - HfHelium - HeHolmium - HoHydrogen - HIndium - InIodine - IIridium - IrIron - FeKrypton - KrLanthanum - LaLawrencium - LrLead - PbLithium - LiLutetium - LuMagnesium - MgManganese - MnMeitnerium - MtMendelevium - MdMercury - HgMolybdenum - MoNeodymium - NdNeon - NeNeptunium - NpNickel - NiNiobium - NbNitrogen - NNobelium - NoOsmium - OsOxygen - OPalladium - PdPhosphorus - PPlatinum - PtPlutonium - PuPolonium - PoPotassium - KPraseodymium - PrPromethium - PmProtactinium - PaRadium - RaRadon - RnRhenium - ReRhodium - RhRubidium - RbRuthenium - RuSamarium - SmScandium - ScSelenium - SeSilicon - SiSilver - AgSodium - NaStrontium - SrSulphur - STantalum - TaTechnetium - TcTellurium - TeTerbium - TbThallium - TlThorium - ThThulium - TmTin - SnTitanium - TiTungsten - WUnnilhexium - UnhUnniloctium - UnoUnnilpentium - UnpUnnilquadium - UnqUnnilseptium - UnsUranium - UVanadium - VXenon - XeYtterbium - YbYttrium - YZinc - ZnZirconium - Zr

How would you describe the modern periodic table?

Actinium - AcAluminum - AlAmericium - AmAntimony - SbArgon - ArArsenic - AsAstatine - AtBarium - BaBerkelium - BkBeryllium - BeBismuth - BiBoron - BBromine - BrCadmium - CdCaesium - CsCalcium - CaCalifornium - CfCarbon - CCerium - CeChlorine - ClChromium - CrCobalt - CoCopper - CuCurium - CmDysprosium - DyEinsteinium - EsErbium - ErEuropium - EuFermium - FmFluorine - FFrancium - FrGadolinium - GdGallium - GaGermanium - GeGold - AuHafnium - HfHelium - HeHolmium - HoHydrogen - HIndium - InIodine - IIridium - IrIron - FeKrypton - KrLanthanum - LaLawrencium - LrLead - PbLithium - LiLutetium - LuMagnesium - MgManganese - MnMeitnerium - MtMendelevium - MdMercury - HgMolybdenum - MoNeodymium - NdNeon - NeNeptunium - NpNickel - NiNiobium - NbNitrogen - NNobelium - NoOsmium - OsOxygen - OPalladium - PdPhosphorus - PPlatinum - PtPlutonium - PuPolonium - PoPotassium - KPraseodymium - PrPromethium - PmProtactinium - PaRadium - RaRadon - RnRhenium - ReRhodium - RhRubidium - RbRuthenium - RuSamarium - SmScandium - ScSelenium - SeSilicon - SiSilver - AgSodium - NaStrontium - SrSulphur - STantalum - TaTechnetium - TcTellurium - TeTerbium - TbThallium - TlThorium - ThThulium - TmTin - SnTitanium - TiTungsten - WUnnilhexium - UnhUnniloctium - UnoUnnilpentium - UnpUnnilquadium - UnqUnnilseptium - UnsUranium - UVanadium - VXenon - XeYtterbium - YbYttrium - YZinc - ZnZirconium - Zr

How can you determine the mass of an unknown element from a mass of a known element?

You can't -- at least you can't be sure. What determines the identity of an element is the number of protons in the nucleus. The mass number however is the sum of the number of protons and the number of neutrons. And because the number of neutrons in a single element can vary by as much as 10 or more from atom to atom, more than one element can have the exact same mass number. As a simple example of this, take a mass number of three. That could be hydrogen with two neutrons, helium with one neutron, or lithium with no neutrons. All three are possible.

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