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  • Optics and Optical theory The theory of vision Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0650.jpg
  • Optics and Optical theory Telescopes and Camera Obscura Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0672.jpg
  • Op art, short for optical art, is a style of visual art that uses optical illusions. Op art works are abstract. Typically, they give the viewer the impression of movement, hidden images, flashing and vibrating patterns, or of swelling or warping.
    IR_f_op-art-2.jpg
  • Display of old optical microscopes at the Haifa Science Museum, Israel
    AH_Science-Museum_01554.jpg
  • Optics and Optical theory Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0701.jpg
  • Biology Research institute, the image from an optical microscope is shown on a computer screen for easy viewing
    SL_20160202_104919.jpg
  • Research Laboratory optical microscope selective focus on microscope
    OR0_Lab_IMG_0726.jpg
  • Researcher prepares slides to view under an optical microscope. Photographed at the University of Haifa
    SL_Lab_SL4_7605.jpg
  • Researcher prepares slides to view under an optical microscope. Photographed at the University of Haifa
    SL_Lab_SL4_7609.jpg
  • Researcher prepares slides to view under an optical microscope. Photographed at the University of Haifa
    SL_Lab_SL4_7588.jpg
  • Researcher prepares slides to view under an optical microscope. Photographed at the University of Haifa
    SL_Lab_SL4_7586.jpg
  • Researcher prepares slides to view under an optical microscope. Photographed at the University of Haifa
    SL_Lab_SL4_7584.jpg
  • Optical spiral illusion
    SL_Science-Museum_LS2_7354.jpg
  • Biology Research institute, the image from an optical microscope is shown on a computer screen for easy viewing
    SL_20160202_104831.jpg
  • Optical microscope in a laboratory
    SL_Lab_SL2_9523.jpg
  • Optical microscope in a laboratory
    SL_Lab_SL2_9522.jpg
  • Researcher prepares slides to view under an optical microscope. Photographed at the University of Haifa
    SL_Lab_SL4_7545.jpg
  • Perspective instruments Optics and Optical theory Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0766.jpg
  • Micrometers for telescopes and microscopes Optics and Optical theory Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0707.jpg
  • Computer generated geometric Op Art (Optical Art) image
    IR_f_OpArt-dots-9.jpg
  • kaleidoscope. Principals and construction Optics and Optical theory Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0727.jpg
  • Photometer and optometer Optics and Optical theory Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0717.jpg
  • Compound Microscopes Optics and Optical theory Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0695.jpg
  • Single Microscopes Optics and Optical theory Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0690.jpg
  • Optics and Optical theory Reflection and Inflection of light Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0612.jpg
  • Computer generated geometric Op Art (Optical Art) image
    IR_f_OpArt-dots-8.jpg
  • Computer generated geometric Op Art (Optical Art) image
    IR_f_OpArt-dots-7.jpg
  • Computer generated geometric Op Art (Optical Art) image
    IR_f_OpArt-green-2.jpg
  • Optics and Optical theory Phenomena of lenses Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0635-wb.jpg
  • Computer generated geometric Op Art (Optical Art) image
    IR_f_OpArt-dots-5.jpg
  • Computer generated geometric Op Art (Optical Art) image
    IR_f_OpArt-dots-3.jpg
  • Optical microscope at a science fair. Photographed in Haifa, Israel
    SL_20150721_121314.jpg
  • Optical microscope at a science fair. Photographed in Haifa, Israel
    SL_20150721_121259.jpg
  • Optical microscope at a science fair. Photographed in Haifa, Israel
    SL_20150702_145908.jpg
  • Camera lens under x-ray. the optical elements can be seen. Nikkor 18-105mm zoomed to 18mm (left) and 105mm (right)
    GV_Lens-X-Ray_18.jpg
  • Camera lens under x-ray. the optical elements can be seen Nikkor 35-105mm zoomed to 35mm (left) and 105mm (right)
    GV_Lens-X-Ray_35.jpg
  • Camera lens under x-ray. the optical elements can be seen. Nikkor 105mm Micro (left) Sigma 10-20mm zoom (right)
    GV_Lens-X-Ray_01_colour.jpg
  • Camera lens under x-ray. the optical elements can be seen. Nikkor 105mm Micro (left) Sigma 10-20mm zoom (right)
    GV_Lens-X-Ray_01.jpg
  • Optical microscope at a science fair. Photographed in Haifa, Israel
    SL_20150721_121317.jpg
  • Research Laboratory optical microscope
    SL_Lab_SL2_4984.jpg
  • Research Laboratory optical microscope close up
    SL_Lab_SL2_4982.jpg
  • Research Laboratory optical microscope
    SL_Lab_SL2_4967.jpg
  • Research Laboratory optical microscope Gloved hand uses a pipette
    SL_Lab_SL2_4979.jpg
  • male surveyor looking through his Lieca optical tool
    ET_DSC_1419_fs_PSh.jpg
  • Frontispiece illustrating Optics THE PRISMATICAL COLOURS EMBODIED INTO SEVEN FEMALE FIGURES THREE OF WHICH ARE DISTINGUISHED AS GENERATIVE AND PRIMITIVE ELEMENTS BY A CROWN AND AN EMBROIDERED MANTLE INTIMATING THAT THE RAY OF LIGHT IS COMPOSED OF YELLOW RED AND BLUE ONLY AND THAT THE OTHER COLOURS ARE MERE COMPOSITIONS OR INTERMIXTURES OF THE PRINCIPAL ONES AT THEIR RESPECTIVE CONTIGUITIES EACH OF THESE FIGURES HOLDS A REPRESENTATIVE OF ONE OF THE SEVEN COLOURS IN THE RAINBOW AS FOUND IN THE IMMENSE STORE OF NEVERCHANGING NATURE AND IN THE FOLLOWING ORDER  The Hebrew Text of 'And God said Let there be light and there was light' Genesis Chapter 1 verse 3. Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0008-crop.jpg
  • Frontispiece illustrating Optics THE PRISMATICAL COLOURS EMBODIED INTO SEVEN FEMALE FIGURES THREE OF WHICH ARE DISTINGUISHED AS GENERATIVE AND PRIMITIVE ELEMENTS BY A CROWN AND AN EMBROIDERED MANTLE INTIMATING THAT THE RAY OF LIGHT IS COMPOSED OF YELLOW RED AND BLUE ONLY AND THAT THE OTHER COLOURS ARE MERE COMPOSITIONS OR INTERMIXTURES OF THE PRINCIPAL ONES AT THEIR RESPECTIVE CONTIGUITIES EACH OF THESE FIGURES HOLDS A REPRESENTATIVE OF ONE OF THE SEVEN COLOURS IN THE RAINBOW AS FOUND IN THE IMMENSE STORE OF NEVERCHANGING NATURE AND IN THE FOLLOWING ORDER  The Hebrew Text of 'And God said Let there be light and there was light' Genesis Chapter 1 verse 3. Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0008.jpg
  • reading glasses on a mosaic table
    IR_f_Garden_E1897.jpg
  • Extreme closeup of a human eye brown, and blue
    GV_f_eyeball_0294.jpg
  • Extreme closeup of a human eye- Brown
    GV_f_eyeball_0290.jpg
  • Extreme closeup of a human eye
    GV_f_eyeball_0289.jpg
  • Extreme closeup of a human eye- Brown
    GV_f_eyeball_0286.jpg
  • Extreme closeup of a human eye- Brown
    GV_f_eyeball_0285.jpg
  • Extreme closeup of a human eye - blue
    GV_f_eyeball_0278.jpg
  • Extreme closeup of a human eye - blue
    GV_f_eyeball_0299.jpg
  • Extreme closeup of a human eye - blue
    GV_f_eyeball_0297.jpg
  • Extreme closeup of a human eye brown, and blue
    GV_f_eyeball_0298.jpg
  • Extreme closeup of a human eye - blue
    GV_f_eyeball_0296.jpg
  • Extreme closeup of a human eye green
    GV_f_eyeball_0293.jpg
  • Extreme closeup of a human eye green
    GV_f_eyeball_0291.jpg
  • Extreme closeup of a human eye gray
    GV_f_eyeball_0292.jpg
  • Extreme closeup of a human eye- Brown
    GV_f_eyeball_0287.jpg
  • Extreme closeup of a human eye green
    GV_f_eyeball_0288.jpg
  • Extreme closeup of a human eye - blue
    GV_f_eyeball_0283.jpg
  • Extreme closeup of a human eye grey
    GV_f_eyeball_0284.jpg
  • Extreme closeup of a human eye brown, and blue
    GV_f_eyeball_0280.jpg
  • Extreme closeup of a human eye
    GV_f_eyeball_0282.jpg
  • Extreme closeup of a human eye grey
    GV_f_eyeball_0281.jpg
  • Extreme closeup of a human eye grey
    GV_f_eyeball_0279.jpg
  • Extreme closeup of a human eye - blue
    GV_f_eyeball_0275.jpg
  • Extreme closeup of a human eye grey
    GV_f_eyeball_0276.jpg
  • Extreme closeup of a human eye - blue
    GV_f_eyeball_0277.jpg
  • Extreme closeup of a human eye - blue
    GV_f_eyeball_0295.jpg
  • William Herschel's 40 foot reflecting telescope Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0683.jpg
  • Multicoloured abstract twirling pattern of light in blue and white
    ET_p_light_0224.jpg
  • Multicoloured abstract twirling pattern of light in yellow green and white
    ET_p_light_0223.jpg
  • collection of old and ancient microscopes at Madatech, Israeli National Museum of Science Technology and Space, Haifa, Israel
    SL_Science-Museum_LS2_7406.jpg
  • Technician using a Molecular biology Microscope in a lab
    GC_070611_DSC_0007_New.jpg
  • Binoculars under x-ray side view
    GV_Binocular.jpg
  • collection of old and ancient telescopes at Madatech, Israeli National Museum of Science Technology and Space, Haifa, Israel
    SL_Science-Museum_LS2_7408.jpg
  • collection of old and ancient microscopes at Madatech, Israeli National Museum of Science Technology and Space, Haifa, Israel
    SL_Science-Museum_LS2_7404.jpg
  • Laser Light reflection on black background
    GC_Science_8670.jpg
  • Laser Light reflection on black background
    GC_Science_8669.jpg
  • Setting sun as seen through a noose Photographed over the Mediterranean Sea, Israel
    RL_f_Beit-Yanai_RAN_0138.jpg
  • Psychedelic twirling design in blue, red and purple
    IR_f_Hats_E8707.jpg
  • Endless tunnel illusion
    IR_m_Madrid_D4548.jpg
  • coin operated Viewing telescope aimed at a blue sky
    VA_f_Budapest-16-7242.jpg
  • Psychedelic Hula Hoop at night
    IR_f_91103_mr.jpg
  • Sunset over the sea. The sun in the palm of her hand
    RL_f_Beit-Yanai_RAN_0141.jpg
  • Multicoloured abstract twirling pattern of light in yellow green and white
    ET_p_light_0274-2.jpg
  • Abstract 3D shapes paved a footpath in Batumi, Georgia
    SL_f_Batumi_LS2_4440.jpg
  • coin operated Viewing telescope aimed at a blue sky
    VA_f_Budapest-16-7244.jpg
  • coin operated Viewing telescope aimed at a blue sky
    VA_f_Budapest-16-7243.jpg
  • Endless tunnel illusion
    IR_m_Madrid_D4547.jpg
  • Psychedelic Hula Hoop at night
    IR_f_91095_mr.jpg
  • Portrait of Sir Isaac Newton, English physicist, mathematician, astronomer, philosopher. Newton's (1643-1727) discoveries were prolific and exerted a huge influence on science and thought. His theories of gravity and his three laws of motion were outlined in his greatest work, Philosophiae Naturalis Principia Mathematica, (1687) and he is credited with discovering differential calculus. He also formulated theories regarding optics and the nature of light that led to him building the first reflecting telescope. Knighted by Queen Anne in 1705, Newton is buried in Westminster Abbey, London. Copperplate engraving From the Encyclopaedia Londinensis or, Universal dictionary of arts, sciences, and literature; Volume XVII;  Edited by Wilkes, John. Published in London in 1820
    IR_f_Vol17_0043.jpg
  • Portrait of Sir Isaac Newton, English physicist, mathematician, astronomer, philosopher by Sir Godfrey Kneller (English school) 1702. Newton's (1643-1727) discoveries were prolific and exerted a huge influence on science and thought. His theories of gravity and his three laws of motion were outlined in his greatest work, Philosophiae Naturalis Principia Mathematica, (1687) and he is credited with discovering differential calculus. He also formulated theories regarding optics and the nature of light that led to him building the first reflecting telescope. Knighted by Queen Anne in 1705, Newton is buried in Westminster Abbey, London.
    IR_Sir-Isaac-Newton.jpg
  • Christiaan Huygens [Cristian Huygens] also Hugenius or Huyghens; (14 April 1629 – 8 July 1695), was a Dutch physicist, mathematician, astronomer and inventor, who is widely regarded as one of the greatest scientists of all time and a major figure in the scientific revolution. In physics, Huygens made groundbreaking contributions in optics and mechanics, while as an astronomer he is chiefly known for his studies of the rings of Saturn and the discovery of its moon Titan. As an inventor, he improved the design of the telescope with the invention of the Huygenian eyepiece. His most famous invention, however, was the pendulum clock in 1656, which was a breakthrough in timekeeping and became the most accurate timekeeper for almost 300 years. Because he was the first to use mathematical formulae to describe the laws of physics, Huygens has been called the first theoretical physicist and the founder of mathematical physics.[7][8]From the book La ciencia y sus hombres : vidas de los sabios ilustres desde la antigüedad hasta el siglo XIX T. 2  [Science and its men: lives of the illustrious sages from antiquity to the 19th century Vol 2] By by Figuier, Louis, (1819-1894); Casabó y Pagés, Pelegrín, n. 1831 Published in Barcelona by D. Jaime Seix, editor , 1879 (Imprenta de Baseda y Giró)
    IR_Men-of-Science-T2_1010.jpg
  • Christiaan Huygens [Cristian Huygens] also Hugenius or Huyghens; (14 April 1629 – 8 July 1695), was a Dutch physicist, mathematician, astronomer and inventor, who is widely regarded as one of the greatest scientists of all time and a major figure in the scientific revolution. In physics, Huygens made groundbreaking contributions in optics and mechanics, while as an astronomer he is chiefly known for his studies of the rings of Saturn and the discovery of its moon Titan. As an inventor, he improved the design of the telescope with the invention of the Huygenian eyepiece. His most famous invention, however, was the pendulum clock in 1656, which was a breakthrough in timekeeping and became the most accurate timekeeper for almost 300 years. Because he was the first to use mathematical formulae to describe the laws of physics, Huygens has been called the first theoretical physicist and the founder of mathematical physics.[7][8]From the book La ciencia y sus hombres : vidas de los sabios ilustres desde la antigüedad hasta el siglo XIX T. 2  [Science and its men: lives of the illustrious sages from antiquity to the 19th century Vol 2] By by Figuier, Louis, (1819-1894); Casabó y Pagés, Pelegrín, n. 1831 Published in Barcelona by D. Jaime Seix, editor , 1879 (Imprenta de Baseda y Giró)
    IR_Men-of-Science-T2_0991.jpg
  • Christiaan Huygens [Cristian Huygens] also Hugenius or Huyghens; (14 April 1629 – 8 July 1695), was a Dutch physicist, mathematician, astronomer and inventor, who is widely regarded as one of the greatest scientists of all time and a major figure in the scientific revolution. In physics, Huygens made groundbreaking contributions in optics and mechanics, while as an astronomer he is chiefly known for his studies of the rings of Saturn and the discovery of its moon Titan. As an inventor, he improved the design of the telescope with the invention of the Huygenian eyepiece. His most famous invention, however, was the pendulum clock in 1656, which was a breakthrough in timekeeping and became the most accurate timekeeper for almost 300 years. Because he was the first to use mathematical formulae to describe the laws of physics, Huygens has been called the first theoretical physicist and the founder of mathematical physics.[7][8]From the book La ciencia y sus hombres : vidas de los sabios ilustres desde la antigüedad hasta el siglo XIX T. 2  [Science and its men: lives of the illustrious sages from antiquity to the 19th century Vol 2] By by Figuier, Louis, (1819-1894); Casabó y Pagés, Pelegrín, n. 1831 Published in Barcelona by D. Jaime Seix, editor , 1879 (Imprenta de Baseda y Giró)
    IR_Men-of-Science-T2_0991-crop.jpg
  • A stack of recordable discs
    ET_m_6316.jpg
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