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Energy Production Collection

"Unleashing the Power Within: A Journey into Energy Production" Step into the fascinating world of energy production

Background imageEnergy Production Collection: Chloroplast structure, artwork

Chloroplast structure, artwork
Chloroplast structure. Artwork showing the internal structure of chloroplasts, the organelles in plant cells responsible for photosynthesis

Background imageEnergy Production Collection: Bernot wagon, coal transport, coal delivery to the inhabitants, 1880, Paris, France, Historic

Bernot wagon, coal transport, coal delivery to the inhabitants, 1880, Paris, France, Historic
1 person, architectural engineering, black, black-and-white, black-white, building engineering, coals, contemporary, copy, depiction, depictions, digital, digitally, drawing, drawings, drawn

Background imageEnergy Production Collection: Turbine House of the Power Stations at Niagara Falls, Canada, Historic

Turbine House of the Power Stations at Niagara Falls, Canada, Historic, digitally restored reproduction of an original
1900s, 19th-century, america, art work, arts, artwork, artworks, attraction, attractions, black, black-and-white, black-white, building, buildings, canadian, cascade, cascades, countryside

Background imageEnergy Production Collection: A current generator or current motor on a river, for the water supply of villages on hills

A current generator or current motor on a river, for the water supply of villages on hills
1900s, 19th-century, accurate, companies, company, deserted, digital, digitally, economies, electricity generation, electricity supply, energies, energy, energy industry, energy production

Background imageEnergy Production Collection: Citrate acid cycle enzyme F006 / 9305

Citrate acid cycle enzyme F006 / 9305
Citrate acid cycle enzyme. Molecular model of the enzyme dihydrolipoamide succinyltransferase. This enzyme is involved in the citric acid (or Krebs) cycle

Background imageEnergy Production Collection: Thermal vents at Bumpass Hell, Lassen Volcanic National Park, Mount Lassen, California

Thermal vents at Bumpass Hell, Lassen Volcanic National Park, Mount Lassen, California, USA

Background imageEnergy Production Collection: SIRT3 molecule, artwork C017 / 3657

SIRT3 molecule, artwork C017 / 3657
SIRT3 molecule. Computer artwork showing the structure of a molecule of NAD-dependent deacetylase sirtuin-3, mitochondrial (SIRT3)

Background imageEnergy Production Collection: Hoover Dam C014 / 8572

Hoover Dam C014 / 8572
Hoover Dam with clouds lit by an early morning sun. This concrete dam is located on the Colorado River, in Black Canyon, on the border between Nevada and Arizona, USA

Background imageEnergy Production Collection: ATP synthase molecule C014 / 0880

ATP synthase molecule C014 / 0880
ATP synthase molecule. Molecular model showing the structure of ATP synthase (ATPase) subunit C. ATPase is an important enzyme that provides energy for cells through the synthesis of adenosine

Background imageEnergy Production Collection: NADP-dependent isocitrate dehydrogenase F006 / 9778

NADP-dependent isocitrate dehydrogenase F006 / 9778
NADP-dependent isocitrate dehydrogenase, molecular model. This enzyme catalyses the third step in the citric acid (or Krebs) cycle, the process by which mitochondria convert glucose to energy

Background imageEnergy Production Collection: Triose phosphate isomerase molecule F006 / 9777

Triose phosphate isomerase molecule F006 / 9777
Triose phosphate isomerase (TPI), molecular model. TPI is essential for glycolysis and catalyses the reversible interconversion of dihydroxyacetone phosphate and glyceraldehyde-3-phosphate

Background imageEnergy Production Collection: Metabolic enzyme molecule F006 / 9770

Metabolic enzyme molecule F006 / 9770
Metabolic enzyme. Molecular model of the enzyme aconitase with isocitrate bound. Aconitase is involved in the citric acid (or Krebs) cycle

Background imageEnergy Production Collection: Human muscle aldolase, molecular model F006 / 9742

Human muscle aldolase, molecular model F006 / 9742
Human muscle aldolase. Molecular model of the enzyme human muscle aldolase complexed with its substrate fructose 1, 6-bisphosphate

Background imageEnergy Production Collection: Isocitrate dehydrogenase kinase F006 / 9698

Isocitrate dehydrogenase kinase F006 / 9698
Isocitrate dehydrogenase kinase. Molecular model of isocitrate dehydrogenase kinase phosphatase (AceK) complexed with its substrate isocitrate dehydrogenase (ICDH)

Background imageEnergy Production Collection: Isocitrate dehydrogenase molecule F006 / 9663

Isocitrate dehydrogenase molecule F006 / 9663
Isocitrate dehydrogenase, molecular model. This enzyme catalyses the third step in the citric acid (or Krebs) cycle, the process by which mitochondria convert glucose to energy

Background imageEnergy Production Collection: Respiratory complex I F006 / 9593

Respiratory complex I F006 / 9593
Respiratory complex I. Molecular model of the hydrophilic domain of respiratory complex I from the bacterium Thermus thermophilus. This enzyme is involved in energy production

Background imageEnergy Production Collection: Citrate synthase molecule F006 / 9573

Citrate synthase molecule F006 / 9573
Citrate synthase, molecular model. This enzyme is involved in the first step of the citric acid (or Krebs) cycle, the process by which mitochondria convert glucose to energy

Background imageEnergy Production Collection: Bacteriophage ATPase molecule F006 / 9536

Bacteriophage ATPase molecule F006 / 9536
Bacteriophage ATPase. Molecular model of an ATP synthase (ATPase) molecule from the phi 12 bacteriophage. ATPase is an important enzyme that provides energy for cells through the synthesis of

Background imageEnergy Production Collection: ATPase and inhibitor, molecular model F006 / 9448

ATPase and inhibitor, molecular model F006 / 9448
ATPase and inhibitor. Computer model of an ATP synthase (ATPase) molecule from a mitochondrion complexed with its inhibitor protein IF1

Background imageEnergy Production Collection: Citrate synthase molecule F006 / 9443

Citrate synthase molecule F006 / 9443
Citrate synthase, molecular model. This enzyme is involved in the first step of the citric acid (or Krebs) cycle, the process by which mitochondria convert glucose to energy

Background imageEnergy Production Collection: ATPase molecule F006 / 9300

ATPase molecule F006 / 9300
ATPase molecule. Molecular model of the central stalk of an ATP synthase (ATPase) molecule from a cow. ATPase is an important enzyme that provides energy for cells through the synthesis of adenosine

Background imageEnergy Production Collection: Citrate synthase molecule F006 / 9277

Citrate synthase molecule F006 / 9277
Citrate synthase, molecular model. This enzyme is involved in the first step of the citric acid (or Krebs) cycle, the process by which mitochondria convert glucose to energy

Background imageEnergy Production Collection: Metabolic enzyme molecule F006 / 9262

Metabolic enzyme molecule F006 / 9262
Metabolic enzyme. Molecular model of the enzyme aconitase, which is involved in the citric acid (or Krebs) cycle. The citric acid cycle is the process by which mitochondria convert glucose to energy

Background imageEnergy Production Collection: ATP synthase molecule F006 / 9258

ATP synthase molecule F006 / 9258
ATP synthase molecule. Molecular model showing the structure of ATP synthase (ATPase) subunit A and C. ATPase is an important enzyme that provides energy for cells through the synthesis of adenosine

Background imageEnergy Production Collection: Metabolic enzyme molecule F006 / 9227

Metabolic enzyme molecule F006 / 9227
Metabolic enzyme. Molecular model of the enzyme aconitase, which is involved in the citric acid (or Krebs) cycle. The citric acid cycle is the process by which mitochondria convert glucose to energy

Background imageEnergy Production Collection: Hydroelectric Power Station, New Zealand

Hydroelectric Power Station, New Zealand
Generator hall of the Manapouri Hydroelectric Power Station, New Zealand. Manapouri Power Station is an underground hydroelectric power station on the western arm of Lake Manapouri in Fiordland

Background imageEnergy Production Collection: Power station, artwork

Power station, artwork
Power station. Computer artwork showing the main stages used in a typical power station to generate electricity. Water is heated to produce steam (orange), which is used to drive a turbine (centre)

Background imageEnergy Production Collection: Bacterial alcohol dehydrogenase molecule C015 / 7146

Bacterial alcohol dehydrogenase molecule C015 / 7146
Bacterial alcohol dehydrogenase. Molecular model of an NADP-dependent alcohol dehydrogenase enzyme from the bacterium Thermoanaerobacter brockii

Background imageEnergy Production Collection: ATP synthase molecule

ATP synthase molecule. Molecular model showing the structure of ATP synthase (ATPase) subunit C. ATPase is an important enzyme that provides energy for cells through the synthesis of adenosine

Background imageEnergy Production Collection: Mitochondrion structure, artwork

Mitochondrion structure, artwork
Mitochondrion structure. Artwork showing the internal structure of a mitochondrion. This structure, found in eukaryotic cells, is the site of energy production

Background imageEnergy Production Collection: Purple bacterium photosynthesis centre

Purple bacterium photosynthesis centre, molecular model. Purple bacteria are phototrophic bacteria that produce energy through photosynthesis

Background imageEnergy Production Collection: Citrate synthase molecule C015 / 6694

Citrate synthase molecule C015 / 6694
Citrate synthase, molecular model. This enzyme is involved in the first step of the citric acid (or Krebs) cycle, the process by which mitochondria convert glucose to energy

Background imageEnergy Production Collection: Citrate synthase molecule C015 / 6693

Citrate synthase molecule C015 / 6693
Citrate synthase, molecular model. This enzyme is involved in the first step of the citric acid (or Krebs) cycle, the process by which mitochondria convert glucose to energy

Background imageEnergy Production Collection: Isovaleryl dehydrogenase enzyme C015 / 5439

Isovaleryl dehydrogenase enzyme C015 / 5439
Isovaleryl dehydrogenase. Molecular model of the human isovaleryl-CoA dehydrogenase (IVD) enzyme. IVD is an oxidoreductase enzyme that catalyses the third step in the break down of the amino acid

Background imageEnergy Production Collection: ATPase molecule

ATPase molecule. Computer model showing the structure of the peripheral stalk (stator) of an ATP synthase (ATPase) molecule from a cow mitochondrion

Background imageEnergy Production Collection: Isovaleryl dehydrogenase enzyme C015 / 5438

Isovaleryl dehydrogenase enzyme C015 / 5438
Isovaleryl dehydrogenase. Molecular model of the human isovaleryl-CoA dehydrogenase (IVD) enzyme. IVD is an oxidoreductase enzyme that catalyses the third step in the break down of the amino acid

Background imageEnergy Production Collection: NADH dehydrogenase molecule, artwork C014 / 0009

NADH dehydrogenase molecule, artwork C014 / 0009
NADH dehydrogenase molecule. Computer artwork showing the structure of a molecule of NADH dehydrogenase (NADH:ubiquinone reductase or Complex I)

Background imageEnergy Production Collection: Steam turbine

Steam turbine, historical artwork. This is an artists impression of what a turbine described by Hero of Alexandria may have looked like

Background imageEnergy Production Collection: Krebs cycle enzyme, molecular model

Krebs cycle enzyme, molecular model

Background imageEnergy Production Collection: Transcription preinitiation complex

Transcription preinitiation complex. Molecular model of a TATA-box-binding protein (green and blue) complexed with the transcription factor IIB (yellow) and a DNA (deoxyribonucleic acid)

Background imageEnergy Production Collection: Cell mitochondrion

Cell mitochondrion
False-colour transmission electron micrograph of a mitochondrion from an unidentified cell. Mitochondria are the sites of cell respiration; the chemical process which uses molecular oxygen to oxidise

Background imageEnergy Production Collection: Chloroplast structures, artwork

Chloroplast structures, artwork
Chloroplast structures. Cutaway artwork showing the internal structure of a chloroplast, the organelle in plant cells responsible for photosynthesis

Background imageEnergy Production Collection: Mitochondrion, artwork

Mitochondrion, artwork
Mitochondrion. Cutaway artwork showing the internal structure of a mitochondrion. This structure, found in eukaryotic cells, is the site of energy production

Background imageEnergy Production Collection: Mitochondrial energy, conceptual image

Mitochondrial energy, conceptual image. Computer artwork of a glowing mitochondrion, representing the energy produced by these cell organelles

Background imageEnergy Production Collection: Global warming, conceptual artwork

Global warming, conceptual artwork. Computer artwork of an electricity pylon with dark clouds and an orange colour cast, representing the negative effect of traditional methods of energy production

Background imageEnergy Production Collection: Old heating pipelines, Liptovsky Mikulas, High Tatras, Slovakia, Europe

Old heating pipelines, Liptovsky Mikulas, High Tatras, Slovakia, Europe

Background imageEnergy Production Collection: A windfarm in Workington UK

A windfarm in Workington UK
Ashley Cooper / SpecialistStock



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"Unleashing the Power Within: A Journey into Energy Production" Step into the fascinating world of energy production, where nature's wonders and human ingenuity intertwine to fuel our modern lives. Let's begin with the chloroplast structure, a remarkable organelle found in plants that harnesses sunlight through photosynthesis. Like an artist's canvas, it converts light energy into chemical energy, providing sustenance for all life forms on Earth. Delve deeper into the microscopic realm and discover the ATPase molecule - a molecular powerhouse responsible for generating adenosine triphosphate (ATP), the currency of cellular energy. Its intricate machinery tirelessly churns out ATP molecules, fuelling every biological process within us. Travel back in time to 1880 Paris, France, as we witness the historic Bernot wagon transporting coal to power stations. This digitally restored reproduction captures a pivotal moment when coal delivery revolutionized energy production and brought light to countless inhabitants. Venturing across continents, marvel at Niagara Falls' Turbine House - an awe-inspiring artwork from the 19th century showcasing how rushing water can be harnessed to generate electricity. Witness this historic masterpiece come alive through meticulous restoration. In Germany's picturesque hills lies Anton Kunz's ingenious invention - a current generator or motor powered by river currents. This industrial marvel from 1880 supplied water to villages perched atop hills, exemplifying how innovation meets necessity in shaping our quest for sustainable energy solutions. Explore further into biochemistry as we encounter enzymes like citrate acid cycle enzyme F006/9305 and NADP-dependent isocitrate dehydrogenase F006/9778. These molecular catalysts play vital roles in converting nutrients into usable forms of energy within our cells. Nature never ceases to amaze; behold Lassen Volcanic National Park's thermal vents at Bumpass Hell in Mount Lassen, California.