RF
+
Transfer RNA illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
RF
+
Transfer RNA illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
RF
+
Transfer RNA illustration
RF
+
Deoxyribose chemical structure illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
RM
+
Kidney stone SEM
RM
+
Kidney stone SEM
RM
+
Kidney stone SEM
RM
+
Kidney stone SEM
RM
+
C3b complexed with smallpox inhibitor
ED
+
Amylose Computer-generated molecular model of amylose Amylose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Amylose is a po
RM
+
Hydroxycytidine antiviral medication molecular model Hydroxycytidine is an antiviral ribonucleoside and an analogue of cytidine The compound has an
RM
+
Glucose solvation mechanism illustration The main bonding in molecular solvation complexes is hydrogen bonding A glucose molecule (centre) is shown
RM
+
Glucose solvation mechanism illustration
RM
+
Microwave window Graph showing the variation with frequency of the radio noise (equated with Kelvin temperatures) arriving from space at the Earths
RM
+
Pollution monitoring equipment Technician operating a pump and probe LIDAR (Light Detection and Ranging) apparatus to measure air pollution levels T
RM
+
Kidney stone scanning electron micrograph (SEM) Kidney stones are primarily formed by crystallization of the mineral salt calcium oxalate from the u
RM
+
Kidney stone octahedral crystals SEM
RM
+
Kidney stone SEM
RM
+
Kidney stone monoclinic crystals SEM
ED
+
Plant polymer research Scientist examines a sample of a polymer chemical derived from a plant during research into finding replacements for polymers
RM
+
Kidney stone monoclinic crystals SEM
RM
+
Kidney stone monoclinic crystals SEM
RM
+
Kidney stone octahedral crystals SEM
RM
+
Kidney stone coloured scanning electron micrograph (SEM) Kidney stones are primarily formed by crystallization of the mineral salt calcium oxalate f
RM
+
Kidney stone coloured scanning electron micrograph (SEM) Kidney stones are primarily formed by crystallization of the mineral salt calcium oxalate f
RM
+
Kidney stone SEM
RM
+
Kidney stone coloured scanning electron micrograph (SEM) Kidney stones are primarily formed by crystallization of the mineral salt calcium oxalate f
RM
+
Benzamide Molecular model of the organic compound benzamide (C7H7NO) This is a derivative of benzoic acid with an amide functional group replaci
RM
+
Hydrogen on Vesta satellite image
ED
+
Ethanol Computer-generated molecular model of ethanol (CH3CH2OH) a type of alcohol Alcohols comprise a carbon (black) and hydrogen (white) chain
RM
+
Shikimate metabolite test Laboratory tubes showing the results of a test for the plant and micro-organism metabolite shikimate The blue colour is po
RM
+
Water-titanium dioxide modelling Computer model showing the structure and charge density of water (across centre) on a titanium dioxide surface (acro
RM
+
Moon Mineralogy Mapper image showing the mineral composition of the Moons Earth-facing surface The image was obtained by NASAs Moon Mineralogy Map
RM
+
Glucose molecule Computer artwork showing the structure of a molecule of glucose Atoms are represented as spheres (carbon black hydrogen white o
RM
+
Glucose molecule Computer artwork showing the structure of a molecule of glucose Atoms are represented as spheres (carbon black hydrogen white o
RM
+
Phenol Molecular model of phenol formerly called carbolic acid (formula C6H5OH) Phenol is a crystalline solid that is soluble in water The soluti
RM
+
Methanol alcohol molecule Molecular model of methanol the simplest alcohol with just one carbon atom (grey) It is a flammable light colourless li
RM
+
Menthol Molecular model of menthol an organic compound either obtained from peppermint or mint oils or made synthetically Menthol is used in liqu
RM
+
Glucose molecular model Atoms are represented as spheres and are colour-coded carbon (orange) oxygen (yellow) and hydrogen (red) Glucose is a sim
ED
+
Cellulose Computer-generated molecular model of cellulose Cellulose is composed of carbon (green) hydrogen (white-grey) and oxygen (red) Cellulose
RM
+
Glucose molecular model Atoms are represented as spheres and are colour-coded carbon (pink) oxygen (orange) and hydrogen (yellow) Glucose is a si
RM
+
Glucose molecular model Atoms are represented as spheres and are colour-coded carbon (pink) oxygen (orange) and hydrogen (yellow) Glucose is a si
RM
+
Glucose molecular model Atoms are represented as spheres (blue) Glucose is a simple sugar (monosaccharide) that is utilised by the body as an energ
RM
+
Glucose molecular model Atoms are represented as spheres (blue) Glucose is a simple sugar (monosaccharide) that is utilised by the body as an energ
RM
+
Sucrose Computer-generated molecular model of sucrose (C12H22O11) Sucrose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Suc
RM
+
Sucrose Computer-generated molecular model of sucrose (C12H22O11) Sucrose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Suc
RM
+
Maltose Computer-generated molecular model of maltose (C12H22O11) Maltose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Mal
RM
+
Maltose molecule
RM
+
Lactose Computer-generated molecular model of lactose Lactose is composed of carbon(green) hydrogen (grey-white) and oxygen (red) Lactose is a sac
ED
+
Glucose isomer models Molecular models of the glucopyranose form of glucose Glucose (C6H12O6) is a hexose sugar Glucopyranose has a five carbon rin
RM
+
Lactose Computer-generated molecular model of lactose Lactose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Lactose is a sa
RM
+
Glucose Computer-generated model of glucose (C6H12O6) Glucose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Glucose is a mo
RM
+
Glucose molecule
RM
+
Cellulose Computer-generated molecular model of cellulose Cellulose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Cellulose
RM
+
Amylose Computer-generated molecular model of amylose Amylose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Amylose is a po
RM
+
Amylopectin Computer-generated molecular model of amylopectin Amylopectin is composed of carbon (green) hydrogen (greywhite) and oxygen (red) Amy
RM
+
Amylopectin Computer-generated molecular model of amylopectin Amylopectin is composed of carbon (green) hydrogen (greywhite) and oxygen (red) Amy
RM
+
Aspartame Computer-generated molecular model of aspartame (C14H18N2O5) the sugar substitute Aspartame is composed of carbon (green) hydrogen (grey
RM
+
Aspartame Computer-generated molecular model of aspartame (C14H18N2O5) the sugar substitute Aspartame is composed of carbon (green) hydrogen (grey
RM
+
Glucose models
RM
+
Glyceraldehyde isomer models Molecular models of the two isomeric forms of glyceraldehyde D- glyceraldehyde (left) has a hydroxyl group (OH) on the
RM
+
Haloalkane test
RM
+
Haloalkane test Image 3 of 7 Adding silver nitrate to test tubes containing haloalkane and sodium hydroxide to determine the halogen present Haloal
RM
+
Haloalkane test Image 1 of 7 Test tubes containing a haloalkane and sodium hydroxide being heated in a water bath Haloalkanes are formed when a mem
RM
+
Oxidation of alcohols A strong oxidizing agent (potassium dichromate K2Cr2O7 yellow) has been added to three alcohols A reaction has occurred with
RF
+
Benzamide Molecular model of the organic compound benzamide (C7H7NO) This is a derivative of benzoic acid with an amide functional group replaci
RF
+
Benzamide Molecular model of the organic compound benzamide (C7H7NO) This is a derivative of benzoic acid with an amide functional group replaci
RM
+
Copper chloride and glucose polarised light micrograph Glucose is a member of the sugar family which itself is part of a larger family called carboh
RM
+
Copper chloride and glucose polarised light micrograph Glucose is a member of the sugar family which itself is part of a larger family called carboh
RM
+
Copper chloride and glucose polarised light micrograph Glucose is a member of the sugar family which itself is part of a larger family called carboh
RM
+
Copper chloride and glucose polarised light micrograph Glucose is a member of the sugar family which itself is part of a larger family called carboh
RM
+
Copper chloride and glucose polarised light micrograph
RF
+
Hydroxyl radical Used by macrophages (immune cells) to destroy pathogens Stylized skeletal formula (chemical structure) Atoms are shown as color-co
RF
+
Hydroxyl radical Used by macrophages (immune cells) to destroy pathogens Skeletal formula
RF
+
Hydroxyl radical Used by macrophages (immune cells) to destroy pathogens Skeletal formula
RF
+
Hydroxyl radical Used by macrophages (immune cells) to destroy pathogens Stylized skeletal formula (chemical structure) Atoms are shown as color-co
RF
+
Hydroxyl radical Used by macrophages (immune cells) to destroy pathogens Skeletal formula
RF
+
Hydroxyl radical Used by macrophages (immune cells) to destroy pathogens Skeletal formula
RF
+
Hydroxyl radical Used by macrophages (immune cells) to destroy pathogens Stylized skeletal formula (chemical structure) Atoms are shown as color-co
RF
+
Colourful gemstones Mixture of ruby garnet and tanzanite gemstones
RF
+
Tanzanite Tanzanite
RF
+
Glucose sugar molecule
RF
+
Glucose sugar molecule
83
0
https://www.afloimages.com/search/hydroxyl.html