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Comet 252PLINEAR and VLT at night Chile
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Hydrogen molecule illustration
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Fluorine molecule illustration
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Sodium hydroxide molecule illustration
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Sodium chloride molecule illustration
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Oxygen molecule illustration
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Nitrous oxide molecule illustration
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Nitrogen dioxide molecule illustration
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Nitrogen molecule illustration
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Chromatography column Technician examining a chromatography column leading into a mass spectrometer The column (thin wire) is packed with small be
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Chlorine molecule illustration
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Illustration of a bromine (Br2) molecule by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Ammonia molecule illustration
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Hydrogen gas conceptual illustration
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Hydrogen gas conceptual illustration Hydrogen (H2) is one of lightest and most abundant elements in the universe Hydrogen is a diatomic molecule I
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Hydrogen molecule illustration
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Hydrogen molecule illustration
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Hydrogen molecule illustration
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Illustration of a hydrogen molecule one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseous s
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Period 3 elements From left (in their periodic table order) they are sodium (Na); magnesium (Mg); aluminium (Al); silicon (Si); phosphorus (P white
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Illustration of a hydrogen molecule one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseous s
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Illustration of a hydrogen molecule one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseous s
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Hydrogen molecule illustration
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Illustration of a hydrogen molecule one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseous s
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Illustration of hydrogen molecules one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseous st
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Illustration of hydrogen molecules one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseous st
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Illustration of hydrogen molecules one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseous st
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Hydrogen molecules illustration
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Illustration of hydrogen molecules one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseous st
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Chlorine and oxygen Gas jars filled with chlorine (Cl2 left) and oxygen (O2 right) gases These gaseous chemical elements are made up of diatomic m
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Hydrogen molecules illustration
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Illustration of hydrogen molecules one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseous st
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Illustration of hydrogen molecules one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseous st
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Hydrogen molecules illustration
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Hydrogen molecules illustration
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Hydrogen molecules illustration
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Illustration of hydrogen molecules one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseous st
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Hydrogen molecules illustration
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Hydrogen molecules illustration
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Molecular collisions Computer model showing the paths taken by three molecules before and after two consecutive collisions Each coloured strand show
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Illustration of hydrogen molecules one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseous st
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Hydrogen molecules illustration
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Halogen displacement reaction
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Polar bond in hydrogen chloride molecule Image 3 of 3 illustrating the sharing of electrons (dots and crosses) between a hydrogen atom (H) and a chlo
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Polar bond in hydrogen chloride molecule Image 2 of 3 illustrating the sharing of electrons (dots and crosses) between a hydrogen atom (H) and a chlo
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Polar bond in hydrogen chloride molecule Image 1 of 3 illustrating the sharing of electrons (dots and crosses) between a hydrogen atom (H) and a chlo
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Bond formation in oxygen molecule Illustration of the sharing of electrons (dots and crosses) between two oxygen atoms (O) to form a molecule of oxyg
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Bond formation in oxygen molecule Illustration of the sharing of electrons (dots and crosses) between two oxygen atoms (O) to form a molecule of oxyg
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Bond formation in nitrogen molecule Illustration of the sharing of electrons (dots and crosses) between two nitrogen atoms (N) to form a molecule of
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Bond formation in nitrogen molecule Illustration of the sharing of electrons (dots and crosses) between two nitrogen atoms (N) to form a molecule of
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Bond formation in hydrogen molecule Illustration of the sharing of electrons (dots and crosses) between two hydrogen atoms (H) to form a molecule of
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Bond formation in hydrogen molecule Illustration of the sharing of electrons (dots and crosses) between two hydrogen atoms (H) to form a molecule of
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Bond formation hydrogen chloride molecule Illustration of the sharing of electrons (dots and crosses) between a hydrogen atom (H) and a chlorine ato
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Bond formation hydrogen chloride molecule Illustration of the sharing of electrons (dots and crosses) between a hydrogen atom (H) and a chlorine ato
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Bond formation in chlorine molecule Illustration of the sharing of electrons (dots and crosses) between two chlorine atoms (Cl) to form a molecule of
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Bond formation in chlorine molecule Illustration of the sharing of electrons (dots and crosses) between two chlorine atoms (Cl) to form a molecule of
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Hydrogen chloride Composite image of the atomic and electronic structure of the molecule hydrogen chloride This diatomic molecule consists of a hydr
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Hydrogen chloride Composite image of the atomic and electronic structure of the molecule hydrogen chloride This diatomic molecule consists of a hydr
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Nitrogen monoxide molecule
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Hydroiodic acid Molecular model of the halide and mineral acid hydroiodic acid (HI) This strong acid is used in organic and inorganic synthesis as a
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Hydrofluoric acid Molecular model of the halide and mineral acid hydrofluoric acid (HF) This is a highly corrosive acid capable of dissolving many m
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Hydrochloric acid Molecular model of the halide and mineral acid hydrochloric acid (HCl) This is a highly corrosive and strong acid found naturally
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Hydrobromic acid Molecular model of the halide and mineral acid hydrobromic acid (HBr) One of the strongest mineral acids this is mainly used for t
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Three conical flasks each containing a different halogen They are chlorine (Cl pale green) bromine (Br red brown) and iodine (I pale purple) Th
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Three conical flasks each containing a different halogen They are chlorine (Cl pale green) bromine (Br red brown) and iodine (I pale purple) Th
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Three conical flasks each containing a different halogen They are chlorine (Cl pale green) bromine (Br red brown) and iodine (I pale purple) Th
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Flasks containing halogens
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Flasks containing halogens
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Flasks containing halogens
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Helium atom artwork
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Molecular collisions
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Nitrogen monoxide Molecular model of the diatomic chemical nitrogen monoxide (NO) also known as nitric oxide This chemical acts as a free radical a
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Nitrogen monoxide Molecular model of the diatomic chemical nitrogen monoxide (NO) also known as nitric oxide This chemical acts as a free radical a
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Iodine (I2) molecule Solutions of elemental iodine are used as disinfectants Stylized skeletal formula (chemical structure) Atoms are shown as colo
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Computer artwork of a hydrogen molecule one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseo
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Computer artwork of a hydrogen molecule one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseo
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Computer artwork of a hydrogen molecule one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseo
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Computer artwork of a hydrogen molecule one of lightest and most abundant elements in the universe Hydrogen (H2) is a diatomic molecule In a gaseo
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Iodine (I2) molecule Solutions of elemental iodine are used as disinfectants Stylized skeletal formula (chemical structure) Atoms are shown as colo
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Iodine (I2) molecule Solutions of elemental iodine are used as disinfectants Skeletal formula
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Iodine (I2) molecule Solutions of elemental iodine are used as disinfectants Stylized skeletal formula (chemical structure) Atoms are shown as colo
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Iodine (I2) molecule Solutions of elemental iodine are used as disinfectants Skeletal formula
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Iodine (I2) molecule Solutions of elemental iodine are used as disinfectants Skeletal formula
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Iodine (I2) molecule Solutions of elemental iodine are used as disinfectants Stylized skeletal formula (chemical structure) Atoms are shown as colo
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Iodine (I2) molecule Solutions of elemental iodine are used as disinfectants Stylized skeletal formula (chemical structure) Atoms are shown as colo
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Iodine (I2) molecule Solutions of elemental iodine are used as disinfectants Skeletal formula
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Elemental oxygen (O2) molecule Stylized skeletal formula (chemical structure) Atoms are shown as color-coded circles with thick black outlines and b
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Elemental oxygen (O2) molecule White skeletal formula on dark teal gradient background with hexagonal pattern
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Elemental oxygen (O2) molecule Stylized skeletal formula (chemical structure) Atoms are shown as color-coded circles connected by thin bonds on a w
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Elemental oxygen (O2) molecule Blue skeletal formula on white background
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Elemental nitrogen (N2) molecule Nitrogen gas is the main component of the Earths atmosphere Stylized skeletal formula (chemical structure) Atoms
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Elemental nitrogen (N2) molecule Nitrogen gas is the main component of the Earths atmosphere White skeletal formula on dark teal gradient backgroun
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Elemental nitrogen (N2) molecule Nitrogen gas is the main component of the Earths atmosphere Stylized skeletal formula (chemical structure) Atoms
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Elemental nitrogen (N2) molecule Nitrogen gas is the main component of the Earths atmosphere Blue skeletal formula on white background
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Comet 252PLINEAR and VLT at night Chile
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Hydrogen molecule illustration
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Fluorine molecule illustration
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Sodium hydroxide molecule illustration
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Sodium chloride molecule illustration
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Oxygen molecule illustration
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