Wait a second!
More handpicked essays just for you.
Write essay on bohr's atomic model
Niels bohr atomic theory
Write essay on bohr's atomic model
Don’t take our word for it - see why 10 million students trust us with their essay needs.
Niels Bohr Essay
572 Words2 Pages
Recommended: Write essay on bohr's atomic model
Niels Bohr was a Danish physicist who worked in the early to mid-twentieth century. His father was a well-known physiologist. Bohr’s mother came from a family that was well-known in the field of education. In the fall of 1911 Bohr stayed at Cambridge, where he made some money by following the experimental work in the Cavendish Laboratory under Sir J.J. Thomson's guidance. In the early 1900’s Niels Bohr was a valued physicist because he made initial contributions to understanding atomic structure and the quantum theory. According to the source Niels, Bohr wrote 115 publications. “Three appearing as books in the English language may be mentioned here as embodying his principal thoughts: The Theory of Spectra and Atomic Constitution, University Press, Cambridge, 1922/2nd. ed., 1924; Atomic Theory and the Description of Nature, University Press, Cambridge, 1934/reprint 1961; The Unity of Knowledge, Doubleday & Co., New York, 1955.” …show more content…
The concept he believed in was that the physical properties on an atomic level would be viewed differently depending on experimental factors, therefore explaining why light could be seen as both a particle and wave. Bohr went to work with the group of scientists who were at the top of research on nuclear fission during the late 1930’s, when he contributed the liquid droplet theory. Other than his scientific theories Bohr was known for his intelligence and friendliness. In 1920 Bohr founded the University Institute of Theoretical Physics which he would run for the rest of his career. Bohr’s own theory led him to theorize in a series of articles that atoms give off electromagnetic radiation as a result of electrons jumping to different orbit levels. Bohr’s work on atomic structures led him to receive the Nobel Prize in
Related
Mongols Called the Tartars: Outsiders Beware
2613 Words | 6 Pages"Paul David Buell." Max Planck Institute for the History of Science. Max Planck Institute, n.d. Web.
Hantaro Nagaoka Biography
713 Words | 2 PagesPhysicist in the 1900 first started to consider the structure of atoms. The recent discovery of J. J. Thomson of the negatively charged electron implied that a neutral atom must also contain an opposite positive charge. In 1903 Thomson had suggested that the atom was a sphere of uniform positive electrification , with electrons scattered across it like plum in an pudding. (Later known as the Plum Pudding Model)
How Did Robert Oppenheimer Impact Society
876 Words | 2 PagesOppenheimer's early studies were devoted mainly to energy processes of subatomic particles, including electrons,positrons, and cosmic rays. He also did innovative work on not only neutron stars but also black holes. His university provided him with an excellent opportunity to research the quantum theory, along with exploration and development of its full significance. This helped him train an entire generation of U.S. physicists. Furthermore, the most important impact was the invention of the atomic bomb.
Hermann Emil Fischer: The Fischer esterification
1197 Words | 3 PagesIn 1872, Fischer still wished to study physics. He was persuaded by his cousin Otto Fischer to go with him to the University of Strasbourg. There he met P...
Biography of Robert Burns Woodward
865 Words | 2 Pagesphysics. The work of Ernest Rutherford, H. G. J. Moseley, and Niels Bohr on atomic
Niels Bohrs Model Of The Hydrogen Atom
361 Words | 1 PagesNiels Bohr's model of the hydrogen atom, was the primary reason for the understanding of energy levels.Bohr was able to explain the bright line spectrum of hydrogen. Sparked by the recent discovery of the diffraction patterns, scientists believed electrons could be described as waves. Bohr hypothesized that energy is being added to the hydrogen gas in the electricity form, and then leaving the gas in the form of light. He figured the light rays to be quantized, meaning only certain frequencies of the light rays can be seen. In turn, he reasoned that the hydrogen atoms themselves were quantized and, that they only can exist in certain energy levels. When the atoms absorb specific amounts of energy, they exist for a small period of time in higher energy levels. But as soon as these atoms lose their energy, they move back down to the lower levels of energy. His theory went on to state how the hydrogen atom can move up and down the energy levels, one level at a time, and can never stop in between. Every hydrogen atom is made up of a single electron - proton system. Because the negative electron is attracted to the positive proton, potential energy is created inside the atom.He figured that the farther away the electron is from the proton, the greater the potential energy is inside. In conclusion, since hydrogen atoms emit light energy in specific frequencies, the hydrogen atom must be within a specific energy level and nothing else. The different wavelengths help to determine the different colors emitted from the atom. The greater the wavelength, the faster the atom can be filled and jump to a higher level.Bohr developed his theory after studying the work of Einstein's ideas on the photons of energy.
Berkeley's Idealism
1987 Words | 4 PagesThe main theory of the day, with regard to physical science, was Atomism. Atomists believed that bodies are made from minute particles. Further, they believed that the particles and the bodies made from them, possess primary and not secondary properties. The most important exception from this viewpoint was that of Descartes. Although he rejected atomism, he did agree that bodies only really possess primary qualities. Basically what this means is that bodies in themselves possess shape, size, motion and impenetrability but not colour, sound, taste, hardness or smell. This latter g...
Fraunhofer Lines
1110 Words | 3 Pages...Optica and Dioptrice, laying the groundwork for all future optical discoveries to come. After him came Newton, who questioned the commonly held belief about light and discovered a fundamental property of how light worked and what prisms did. Fraunhofer had spent his whole life working with the same optical principles as Kepler. He performed the same experiment as Newton, but he explored further, and opened up whole new worlds of discovery. Today, we still use spectroscopy and Fraunhofer lines to determine what far off planets and stars are made of, and if it would be possible for life to exist on them. Thanks to the discovery of Fraunhofer lines, Niels Bohr was able to come up with his model of the atom, expanding our knowledge of how the universe works. All of these scientific discoveries were built on top of one another, and who knows what we will discover next?
Robert Boyle
852 Words | 2 PagesSootin, Harry, and Gustav Schrotter.Robert Boyle : founder of modern chemistry. New York: F. Watts, 1962. Print.
What Is Quantum Mechanics Essay
887 Words | 2 PagesIn 1907, Einstein used Planck’s hypothesis of quantization to explain why the temperature of a solid changed by different amounts if you put the same amount of heat into the material. Since the early 1800’s, the science of spectroscopy had shown that different elements emit and absorb specific colors of light called “spectral lines.” In 1888, Johannes Rydberg derived an equation that described the spectral lines emitted by hydrogen, though nobody could explain why the equation worked. This changed in 1913 when Danish physicist Niel Bohr applied Planck’s hypothesis of quantization to Ernest Rutherford’s 1911 “planetary” model of the atom, which affirmed that electrons orbited the nucleus the same way that planets orbit the sun. Bohr offered an explanation for why electrical attraction does not make the electrons spiral into the nucleus. He said that electrons in atoms can change their energy only by absorbing or emitting quanta. When an electron absorbs a quantum it moves quickly to orbit farther from nucleus. When an electron emits a quantum the electron jumps to a closer
History of the Periodic Table
672 Words | 2 PagesThings are very different from each other, and can be broken down into small groups inside itself, which was then noticed early by people, and Greek thinkers, about 400BC. Which just happened to use words like "element', and `atom' to describe the many different parts and even the smallest parts of matter. These ideas were around for over 2000 years while ideas such as `Elements' of Earth, Fire, Air, and Water to explain `world stuff' came and went. Much later, Boyle, an experimenter like Galileo and Bacon, was influenced much by Democritus, Gassendi, and Descartes, which lent much important weight to the atomic theory of matter in the 1600s. Although it was Lavoisier who had divided the very few elements known in the 1700's into four different classes, and then John Dalton made atoms even more believable, telling everyone that the mass of an atom was it's most important property. Then in the early 1800's Dobereiner noted that the similar elements often had relative atomic masses, and DeChancourtois made a cylindrical table of elements to display the periodic reoccurrence of properties. Cannizaro then determined atomic weights for the 60 or so elements known in the 1860s, and then a table was arranged by Newlands, with the many elements given a serial number in order of their atomic weights, of course beginning with Hydrogen. That made it clear that "the eighth element, starting from a given one, is a kind of a repeat of the first", which Newlands called the Law of Octaves.
Einstein on Quantum Mechanics
938 Words | 2 PagesStemming from the first years of the 20th century, quantum mechanics has had a monumental influence on modern science. First explored by Max Planck in the 1900s, Einstein modified and applied much of the research in this field. This begs the question, “how did Einstein contribute to the development and research of quantum mechanics?” Before studying how Einstein’s research contributed to the development of quantum mechanics, it is important to examine the origins of the science itself. Einstein took much of Planck’s experimental “quantum theory” research and applied it in usable ways to existing science. He also greatly contributed to the establishment of the base for quantum mechanics research today. Along with establishing base research in the field, Einstein’s discoveries have been modified and updated to apply to our more advanced understanding of this science today. Einstein greatly contributed to the foundation of quantum mechanics through his research, and his theories and discoveries remain relevant to science even today.
The Higgs Boson Particle
1109 Words | 3 PagesI feel personally that the discovery of the atom was an important discovery for the world. With the discovery we are now able to answer questions we never even thought to ask. We are also answering questions some people asked long ago. We can now use our vast knowledge of the atom to measure the stars and be able to tell you what the stars are made of. The atomic discovery also helped us find our periodic table of elements. The periodic table of elements is a huge scientific chart that shows important facts with the help of its formation. There was a lot of constant scientific research that went into making the periodic table of elements and what it is today.
John Dalton
509 Words | 2 PagesJohn Dalton also published a lot of papers on atoms. His most famous article was on "absorption of gases by water and other liquids," this article contained his atomic theory.
Atomic Energy
1685 Words | 4 PagesScientists from earlier times helped influence the discoveries that lead to the development of atomic energy. In the late 1800’s, Dalton created the Atomic Theory which explains atoms, elements and compounds (Henderson 1). This was important to the study of and understanding of atoms to future scientists. The Atomic Theory was a list of scientific laws regarding atoms and their potential abilities. Roentagen, used Dalton’s findings and discovered x-rays which could pass through solid objects (Henderson 1). Although he did not discover radiation from the x-rays, he did help lay the foundations for electromagnetic waves. Shortly after Roentagen’s findings, J.J. Thompson discovered the electron which was responsible for defining the atom’s characteristics (Henderson 2). The electron helped scientists uncover why an atom responds to reactions the way it does and how it received its “personality”. Dalton’s, Roentagen’s and Thompson’s findings helped guide other scientists to discovering the uses of atomic energy and reactions. Such applications were discovered in the early 1900’s by using Einstein’s equation, which stated that if a chain reaction occurred, cheap, reliable energy could b...
More about Niels Bohr Essay
Mongols Called the Tartars: Outsiders Beware
2613 Words | 6 PagesHantaro Nagaoka Biography
713 Words | 2 PagesHow Did Robert Oppenheimer Impact Society
876 Words | 2 PagesHermann Emil Fischer: The Fischer esterification
1197 Words | 3 PagesBiography of Robert Burns Woodward
865 Words | 2 PagesNiels Bohrs Model Of The Hydrogen Atom
361 Words | 1 PagesBerkeley's Idealism
1987 Words | 4 PagesFraunhofer Lines
1110 Words | 3 PagesRobert Boyle
852 Words | 2 PagesWhat Is Quantum Mechanics Essay
887 Words | 2 PagesHistory of the Periodic Table
672 Words | 2 PagesEinstein on Quantum Mechanics
938 Words | 2 PagesThe Higgs Boson Particle
1109 Words | 3 PagesJohn Dalton
509 Words | 2 PagesAtomic Energy
1685 Words | 4 Pages