Covalent bonds hi-res stock photography and images

H2O, water molecule, planetary model, chemical and structural formula. Polar covalent bonds between oxygen and hydrogen atoms, with partial charges. Stock Photo

RF2JKAJ07–H2O, water molecule, planetary model, chemical and structural formula. Polar covalent bonds between oxygen and hydrogen atoms, with partial charges.

Ionic vs Covalent Bonds. In an ionic bond, an electron is donated. In a covalent bond, the electron is shared. Examples of compounds with ionic bonds Stock Vector

RF2FM2TWE–Ionic vs Covalent Bonds. In an ionic bond, an electron is donated. In a covalent bond, the electron is shared. Examples of compounds with ionic bonds

Graphene sheet. Illustration of the atomic-scale molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms linked by strong covalent bonds. Graphene is very strong and flexible. It transports electrons highly efficiently and may one day replace silicon in computer chips and other technology applications. Stock Photo

RFHNAGPJ–Graphene sheet. Illustration of the atomic-scale molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms linked by strong covalent bonds. Graphene is very strong and flexible. It transports electrons highly efficiently and may one day replace silicon in computer chips and other technology applications.

Alicyclic Compounds: Carbon present in rings are linked by single covalent bonds Stock Vector

RF2NH3YFH–Alicyclic Compounds: Carbon present in rings are linked by single covalent bonds

Vector illustration of phosphodiester bonds between three nucleotides. Stock Vector

RF2WAYC1X–Vector illustration of phosphodiester bonds between three nucleotides.

the polar covalent bonds of water molecules (H2O) Stock Vector

RF2K33B1M–the polar covalent bonds of water molecules (H2O)

Boron is a chemical element with the symbol B and atomic number 5 Stock Photo

RM2F4NWXW–Boron is a chemical element with the symbol B and atomic number 5

Carbon atom structure. Bohr model of atom with nucleus, orbital and electrons on dark background. Chemical element. Nonmetal. Organic chemistry. Vecto Stock Vector

RF2Y680E8–Carbon atom structure. Bohr model of atom with nucleus, orbital and electrons on dark background. Chemical element. Nonmetal. Organic chemistry. Vecto

Isolated Water Molecule H2O Illustration Stock Vector

RF2X3TMTT–Isolated Water Molecule H2O Illustration

Chemical Structure of Covalent and ionic bonds, Anatomy Of Covalent and ionic bonds, Molecular structure of Covalent and ionic bonds Stock Vector

RF2GEA0FC–Chemical Structure of Covalent and ionic bonds, Anatomy Of Covalent and ionic bonds, Molecular structure of Covalent and ionic bonds

Abstract Pattern Colored windows in an office block Stock Photo

RMEHJHHA–Abstract Pattern Colored windows in an office block

Buckyball is a type of fullerene with 60 carbon atoms. It has a cage-like structure that resembles a soccer ball, made of 20 hexagons and 12 pentagons Stock Photo

RM2D7EB4D–Buckyball is a type of fullerene with 60 carbon atoms. It has a cage-like structure that resembles a soccer ball, made of 20 hexagons and 12 pentagons

Detailed Vector Illustration of Sp3 Hybridization in Chemistry, Organic Molecules, and Chemical Bonding on White Background Stock Vector

RF2XA55XJ–Detailed Vector Illustration of Sp3 Hybridization in Chemistry, Organic Molecules, and Chemical Bonding on White Background

Simple diagram of a methane molecule showing four single covalent bonds Stock Vector

RF2XH83W9–Simple diagram of a methane molecule showing four single covalent bonds

Background concept wordcloud illustration of ceramic glowing light Stock Photo

RFEWYNA4–Background concept wordcloud illustration of ceramic glowing light

Nicotine is the principal stimulant addictive agent in tobacco Stock Photo

RFA97370–Nicotine is the principal stimulant addictive agent in tobacco

Infographic of the chemical elements and the periodic table. [Adobe InDesign (.indd); 6259x4015]. Stock Photo

RM2NEC9C7–Infographic of the chemical elements and the periodic table. [Adobe InDesign (.indd); 6259x4015].

. The Bell System technical journal . nderprejniration by V. .Sliockley. SEMJCOXDl CrORS .^M covalent bonds. These neighbors are arranged on the corners of a regulartetrahedron in conformity witli the known chemical behavior of the tetra-hedral carbon atom.^ For purposes of discussion of conductivity in thesecrystals, we shall represent the three-dimensional array in two dimensionsas is shown in Fig. 3, indicating that each carbon atom forms an electron-l)air bond with four neighbors. On the basis of this valence bond structure we can intuitively see whydiamond should be an insulator. Althoug Stock Photo

RM2CRTNYR–. The Bell System technical journal . nderprejniration by V. .Sliockley. SEMJCOXDl CrORS .^M covalent bonds. These neighbors are arranged on the corners of a regulartetrahedron in conformity witli the known chemical behavior of the tetra-hedral carbon atom.^ For purposes of discussion of conductivity in thesecrystals, we shall represent the three-dimensional array in two dimensionsas is shown in Fig. 3, indicating that each carbon atom forms an electron-l)air bond with four neighbors. On the basis of this valence bond structure we can intuitively see whydiamond should be an insulator. Althoug

Molecular models of methane reflected. Stock Photo

RMA3GKGA–Molecular models of methane reflected.

Test tubes with colorful liquid substances. Study of liquid states. Group school pupils with test tubes study chemical liquids. Science concept. Girls and boy providing experiment with liquids. Stock Photo

RF2C5DHMY–Test tubes with colorful liquid substances. Study of liquid states. Group school pupils with test tubes study chemical liquids. Science concept. Girls and boy providing experiment with liquids.

3D Rendering of DNA Double Helix Structures in Blue and White. 3D render. Stock Photo

RF2T9M240–3D Rendering of DNA Double Helix Structures in Blue and White. 3D render.

RFHNAGPW–Graphene sheet. Illustration of the atomic-scale molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms linked by strong covalent bonds. Graphene is very strong and flexible. It transports electrons highly efficiently and may one day replace silicon in computer chips and other technology applications.

Alkanes are a series of compounds that contain carbon and hydrogen atoms with single covalent bonds. Stock Vector

RF2NH3YF4–Alkanes are a series of compounds that contain carbon and hydrogen atoms with single covalent bonds.

RF2Y0RN55–Azide anion chemical structure with nitrogen atoms forming covalent bonds, scientific icon

Covalent bond of the hydrogen molecule. Two hydrogen atoms and hydrogen molecule. Vector illustration isolated on chalkboard background. Stock Vector

RF2RCXE9N–Covalent bond of the hydrogen molecule. Two hydrogen atoms and hydrogen molecule. Vector illustration isolated on chalkboard background.

RM2F4NWTY–Boron is a chemical element with the symbol B and atomic number 5

Boron atom structure. Bohr model of atom with nucleus, orbital and electrons on dark background. Chemical element. Metalloid. Vector. Schematic diagra Stock Vector

RF2Y67TA2–Boron atom structure. Bohr model of atom with nucleus, orbital and electrons on dark background. Chemical element. Metalloid. Vector. Schematic diagra

Water Molecule H2O Chemical Structure Illustration Stock Vector

RF2X3TMTA–Water Molecule H2O Chemical Structure Illustration

Ionic bonds and covalent bond Stock Vector

RF2GDKNGY–Ionic bonds and covalent bond

Abstract Pattern Cracked stone and Marble wall Stock Photo

RMEHJ3HW–Abstract Pattern Cracked stone and Marble wall

Background concept wordcloud illustration of ceramic Stock Photo

RFEPE4G6–Background concept wordcloud illustration of ceramic

Detailed Vector Illustration of Sp3 Hybridization for Chemistry, Molecular Orbital Theory, and Chemical Bonding Education on White Background. Stock Vector

RF2XA55WN–Detailed Vector Illustration of Sp3 Hybridization for Chemistry, Molecular Orbital Theory, and Chemical Bonding Education on White Background.

Infographic on the atom and its components. [Adobe InDesign (.indd); 4960x3188]. Stock Photo

RM2NEC9AD–Infographic on the atom and its components. [Adobe InDesign (.indd); 4960x3188].

. Biophysical science. Biophysics. 514 Quantum Mechanical Basis of Molecular Spectra /27 : 3 gel (as nujol) or as part of a pressed KBr disc. The preparation by either method does alter the spectrum. Some typical absorption bands are given in Table II. Group >C =N >c =s, -N = N-, >so4 -OH TABLE II Infrared Absorptions •N = S = °o} in r* 5.95 or longer 6.28-6.8 8 -8.5 2.66-2.98 Group in fi >NH -SH -OD >ND CH 2.88-3.28 3.72-3.9 3.6 -3.8 3.85-4.15 3.05-3.7 The various types of covalent bonds each have several absorption maxima corresponding to different types of vibrations. Randal Stock Photo

RMRHJWP1–. Biophysical science. Biophysics. 514 Quantum Mechanical Basis of Molecular Spectra /27 : 3 gel (as nujol) or as part of a pressed KBr disc. The preparation by either method does alter the spectrum. Some typical absorption bands are given in Table II. Group >C =N >c =s, -N = N-, >so4 -OH TABLE II Infrared Absorptions •N = S = °o} in r* 5.95 or longer 6.28-6.8 8 -8.5 2.66-2.98 Group in fi >NH -SH -OD >ND CH 2.88-3.28 3.72-3.9 3.6 -3.8 3.85-4.15 3.05-3.7 The various types of covalent bonds each have several absorption maxima corresponding to different types of vibrations. Randal

RMA3GKH6–Hydrocarbon models

Study of liquid states. Group school pupils with test tubes study chemical liquids. Science concept. Girls and boy providing experiment with liquids. Test tubes with colorful liquid substances. Stock Photo

RF2BDJCEP–Study of liquid states. Group school pupils with test tubes study chemical liquids. Science concept. Girls and boy providing experiment with liquids. Test tubes with colorful liquid substances.

RF2T9M24A–3D Rendering of DNA Double Helix Structures in Blue and White. 3D render.

RFHNAGPG–Graphene sheet. Illustration of the atomic-scale molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms linked by strong covalent bonds. Graphene is very strong and flexible. It transports electrons highly efficiently and may one day replace silicon in computer chips and other technology applications.

Coordinate Bonding: Octet of one atom should be complete and should have at least one lone pair of electron. Stock Vector

RF2NH4790–Coordinate Bonding: Octet of one atom should be complete and should have at least one lone pair of electron.

Covalent bond of the hydrogen molecule. Two hydrogen atoms and hydrogen molecule. Physics resources for teachers and students Stock Vector

RF2RBTECG–Covalent bond of the hydrogen molecule. Two hydrogen atoms and hydrogen molecule. Physics resources for teachers and students

RM2F4NX05–Boron is a chemical element with the symbol B and atomic number 5

RF2NH4BN4–Coordinate Bonding: Octet of one atom should be complete and should have at least one lone pair of electron.

Simple Isolated Water Molecule H2O Illustration Stock Vector

RF2X3TMW0–Simple Isolated Water Molecule H2O Illustration

RMEHJ3JC–Abstract Pattern Cracked stone and Marble wall

Infographic of the composition of the atom and the evolution of atomic theory. [QuarkXPress (.qxp); 6259x4015]. Stock Photo

RM2NEBFR3–Infographic of the composition of the atom and the evolution of atomic theory. [QuarkXPress (.qxp); 6259x4015].

Molecular models of methane and ethane. Stock Photo

RMA3GKH0–Molecular models of methane and ethane.

Girls and boy providing experiment with liquids. Test tubes with colorful liquid substances. Study of liquid states. Group school pupils with test tubes study chemical liquids. Science concept. Stock Photo

RF2B1X6KX–Girls and boy providing experiment with liquids. Test tubes with colorful liquid substances. Study of liquid states. Group school pupils with test tubes study chemical liquids. Science concept.

RF2T9M22E–3D Rendering of DNA Double Helix Structures in Blue and White. 3D render.

RFHNAGR0–Graphene sheet. Illustration of the atomic-scale molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms linked by strong covalent bonds. Graphene is very strong and flexible. It transports electrons highly efficiently and may one day replace silicon in computer chips and other technology applications.

RF2RBTEE2–Covalent bond of the hydrogen molecule. Two hydrogen atoms and hydrogen molecule. Physics resources for teachers and students

Water Molecule H2O Atomic Chemical Structure Illustration Stock Vector

RF2X3TMRP–Water Molecule H2O Atomic Chemical Structure Illustration

Abstract Pattern Stone in tar Stock Photo

RMEHJ7C1–Abstract Pattern Stone in tar

Science concept. Girls and boy providing experiment with liquids. Test tubes with colorful liquid substances. Study of liquid states. Group school pupils with test tubes study chemical liquids. Stock Photo

RFWABE4B–Science concept. Girls and boy providing experiment with liquids. Test tubes with colorful liquid substances. Study of liquid states. Group school pupils with test tubes study chemical liquids.

RF2T9M248–3D Rendering of DNA Double Helix Structures in Blue and White. 3D render.

RFHNAGPD–Graphene sheet. Illustration of the atomic-scale molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms linked by strong covalent bonds. Graphene is very strong and flexible. It transports electrons highly efficiently and may one day replace silicon in computer chips and other technology applications.

RF2RBTECC–Covalent bond of the hydrogen molecule. Two hydrogen atoms and hydrogen molecule. Physics resources for teachers and students

RMEHJ7CK–Abstract Pattern stone in Tar

RMEG20JH–Moss covered fence

Abstract Pattern water shoot fountain Stock Photo

RMEHF697–Abstract Pattern water shoot fountain

RMC7Y54E–Water Feature patterns

RF2A4XC7K–Study of liquid states. Group school pupils with test tubes study chemical liquids. Science concept. Girls and boy providing experiment with liquids. Test tubes with colorful liquid substances.

RF2T9M221–3D Rendering of DNA Double Helix Structures in Blue and White. 3D render.

RFHNAGPE–Graphene sheet. Illustration of the atomic-scale molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms linked by strong covalent bonds. Graphene is very strong and flexible. It transports electrons highly efficiently and may one day replace silicon in computer chips and other technology applications.

Dot and cross diagrams for simple covalent molecules of methane (CH4). Molecular formula. Lewis structure. Physics resources for teachers and students Stock Vector

RF2RBTB05–Dot and cross diagrams for simple covalent molecules of methane (CH4). Molecular formula. Lewis structure. Physics resources for teachers and students

RMC7Y509–Water Feature patterns

RF2BF1H0H–Test tubes with colorful liquid substances. Study of liquid states. Group school pupils with test tubes study chemical liquids. Science concept. Girls and boy providing experiment with liquids.

RF2T9M24D–3D Rendering of DNA Double Helix Structures in Blue and White. 3D render.

Graphene sheet. Illustration of the atomic-scale molecular structure of graphene, a single hexagonal layer of graphite. It is composed of hexagonally arranged carbon atoms linked by strong covalent bonds. Graphene is very strong and flexible. It transports electrons highly efficiently. The underlying thunderbolts indicate this ability. One day graphene my replace silicon in computer chips and other technology applications. Stock Photo

RFHNAGPH–Graphene sheet. Illustration of the atomic-scale molecular structure of graphene, a single hexagonal layer of graphite. It is composed of hexagonally arranged carbon atoms linked by strong covalent bonds. Graphene is very strong and flexible. It transports electrons highly efficiently. The underlying thunderbolts indicate this ability. One day graphene my replace silicon in computer chips and other technology applications.

Dot and cross diagrams for simple covalent molecules. Hydrogen (H2), oxygen (O2), nitrogen (N2), chlorine (Cl2), water (H2O) and methane (CH4). Stock Vector

RF2RBTB0C–Dot and cross diagrams for simple covalent molecules. Hydrogen (H2), oxygen (O2), nitrogen (N2), chlorine (Cl2), water (H2O) and methane (CH4).

RMC7Y4YC–Water Feature patterns

RF2A5MM9D–Test tubes with colorful liquid substances. Study of liquid states. Group school pupils with test tubes study chemical liquids. Science concept. Girls and boy providing experiment with liquids.

RFHNAGR3–Graphene sheet. Illustration of the atomic-scale molecular structure of graphene, a single hexagonal layer of graphite. It is composed of hexagonally arranged carbon atoms linked by strong covalent bonds. Graphene is very strong and flexible. It transports electrons highly efficiently. The underlying thunderbolts indicate this ability. One day graphene my replace silicon in computer chips and other technology applications.

Model and atomic diagram showing covalent bonds of methane molecule. The molecule has one carbon, and four hydrogen atoms. Stock Photo

RF2B76WDJ–Model and atomic diagram showing covalent bonds of methane molecule. The molecule has one carbon, and four hydrogen atoms.

Covalent bond of the hydrogen molecule. Two hydrogen atoms and hydrogen molecule. Vector illustration isolated on grey background. Stock Vector

RF2RCXE2E–Covalent bond of the hydrogen molecule. Two hydrogen atoms and hydrogen molecule. Vector illustration isolated on grey background.

RMC7Y517–Water Feature patterns

Group school pupils with test tubes study chemical liquids. Science concept. Girls and boy providing experiment with liquids. Test tubes with colorful liquid substances. Study of liquid states. Stock Photo

RFTA4GPX–Group school pupils with test tubes study chemical liquids. Science concept. Girls and boy providing experiment with liquids. Test tubes with colorful liquid substances. Study of liquid states.

Model and atomic diagram showing covalent bonds of water molecule. The molecule has one oxygen, and two hydrogen atoms. The diagram illustrates the polarity of a water molecule - positive and negative charges are unevenly distributed. Stock Photo

RF2B76WB6–Model and atomic diagram showing covalent bonds of water molecule. The molecule has one oxygen, and two hydrogen atoms. The diagram illustrates the polarity of a water molecule - positive and negative charges are unevenly distributed.

Covalent bond of the hydrogen molecule. Two hydrogen atoms and hydrogen molecule. Vector illustration isolated on white background. Stock Vector

RF2RCXE08–Covalent bond of the hydrogen molecule. Two hydrogen atoms and hydrogen molecule. Vector illustration isolated on white background.

Graphene, computer illustration. Close-up view of the molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms (spheres) linked by strong covalent bonds (rods). Graphene is very strong and flexible. Stock Photo

RFH2PBNG–Graphene, computer illustration. Close-up view of the molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms (spheres) linked by strong covalent bonds (rods). Graphene is very strong and flexible.

RMC7Y52D–Water Feature patterns

RF2FNW6XA–Girls and boy providing experiment with liquids. Test tubes with colorful liquid substances. Study of liquid states. Group school pupils with test

Dot and cross diagrams for simple covalent molecules of water (H2O). Molecular formula. Lewis structure. Physics resources for teachers and students Stock Vector

RF2RBTD18–Dot and cross diagrams for simple covalent molecules of water (H2O). Molecular formula. Lewis structure. Physics resources for teachers and students

RFH2PBNF–Graphene, computer illustration. Close-up view of the molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms (spheres) linked by strong covalent bonds (rods). Graphene is very strong and flexible.

RF2FYMTR7–Graphene, illustration

Covalent bond types, illustration Stock Photo

RF2WHFA1G–Covalent bond types, illustration

RMC7Y53E–Water Feature patterns

RMEJPRD9–Silence by Tadao Ando

RF2DEEFTT–Girls and boy providing experiment with liquids. Test tubes with colorful liquid substances. Study of liquid states. Group school pupils with test tubes study chemical liquids. Science concept.

RMC6R6B9–Water Feature patterns

Dot and cross diagrams for simple covalent molecules of chlorine (Cl2). Molecular formula. Lewis structure. Physics resources for teachers and student Stock Vector

RF2RBTD08–Dot and cross diagrams for simple covalent molecules of chlorine (Cl2). Molecular formula. Lewis structure. Physics resources for teachers and student

RF2WHF9YW–Covalent bond types, illustration

Graphene sheet. Graphene is a planar sheet of carbon atoms arranged in a hexagonal pattern. Stacked graphene sheets form the common material graphite, used in pencils and industry. Graphene is very strong and flexible. It transports electrons highly effic Stock Photo

RFGGRH4E–Graphene sheet. Graphene is a planar sheet of carbon atoms arranged in a hexagonal pattern. Stacked graphene sheets form the common material graphite, used in pencils and industry. Graphene is very strong and flexible. It transports electrons highly effic

RFTDCF2K–Group school pupils with test tubes study chemical liquids. Science concept. Girls and boy providing experiment with liquids. Test tubes with colorful liquid substances. Study of liquid states.

RMC6R6BY–Water Feature patterns

Dot and cross diagrams for simple covalent molecules of nitrogen (N2). Molecular formula. Lewis structure. Physics resources for teachers and students Stock Vector

RF2RBTD1N–Dot and cross diagrams for simple covalent molecules of nitrogen (N2). Molecular formula. Lewis structure. Physics resources for teachers and students

RFGGRH4K–Graphene sheet. Graphene is a planar sheet of carbon atoms arranged in a hexagonal pattern. Stacked graphene sheets form the common material graphite, used in pencils and industry. Graphene is very strong and flexible. It transports electrons highly effic

RF2C57541–Study of liquid states. Group school pupils with test tubes study chemical liquids. Science concept. Girls and boy providing experiment with liquids. Test tubes with colorful liquid substances.

RMC6R6CP–Water Feature patterns

Dot and cross diagrams for simple covalent molecules of hydrogen (H2). Molecular formula. Lewis structure. Physics resources for teachers and students Stock Vector

RF2RBTB1A–Dot and cross diagrams for simple covalent molecules of hydrogen (H2). Molecular formula. Lewis structure. Physics resources for teachers and students

RMC6R6DF–Water Feature patterns

Covalent bonds Stock Photos and Images

Covalent bonds Stock Photos and Images

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