Bohr in a sentence

(1) The canonical model of the atom is based on the Bohr model.

(2) The Bohr radius is a fundamental constant in atomic physics.

(3) Bohr's atomic model revolutionized our understanding of the atom.

(4) The name bohrium is derived from the Danish physicist Niels Bohr.

(5) The Rydberg formula can be derived from the Bohr model of the atom.

(6) The Bohr magneton is a unit of magnetic moment used in atomic physics.

(7) Bohr's atomic model introduced the concept of quantized energy levels.

(8) Bohr's model of the atom successfully explained the stability of atoms.

(9) The Bohr model provides a simplified representation of atomic structure.

(10) Niels Bohr's atomic model revolutionized the field of quantum mechanics.

Bohr sentence

(11) Bohr is a Danish physicist known for his contributions to quantum theory.

(12) The release of oxygen from oxyhemoglobin is regulated by the Bohr effect.

(13) The Bohr equation calculates the energy of an electron in a hydrogen atom.

(14) Bohr's principle of correspondence relates classical and quantum mechanics.

(15) Bohr's model of the atom was a major breakthrough in the early 20th century.

(16) The Bohr frequency condition is a fundamental principle in quantum mechanics.

(17) Bohr's theory of complementarity explains the wave-particle duality of light.

(18) Bohr's atomic theory provided a framework for understanding chemical bonding.

(19) Niels Bohr's work laid the foundation for the development of the nuclear bomb.

(20) Niels Bohr's research on isotopes helped establish the concept of atomic mass.

Bohr make sentence

(21) Bohr's model of the atom was an improvement over Rutherford's planetary model.

(22) The Bohr effect describes the influence of pH on oxygen binding to hemoglobin.

(23) The Bohr radius is a fundamental constant used to describe the size of an atom.

(24) Bohr's theory of complementarity reconciled the wave-particle duality of light.

(25) The Bohr model predicts that electrons can only occupy certain discrete orbits.

(26) The Bohr equation is used to calculate the energy levels of electrons in atoms.

(27) The Bohr magneton is a fundamental constant used in magnetic resonance imaging.

(28) The Bohr model depicts electrons orbiting the nucleus in specific energy levels.

(29) The Bohr model depicts electrons orbiting the nucleus in discrete energy levels.

(30) The Bohr equation allows us to calculate the energy levels of electrons in atoms.

Sentence of bohr

(31) Niels Bohr's theories challenged the deterministic worldview of classical physics.

(32) Niels Bohr won the Nobel Prize in Physics in 1922 for his work on atomic structure.

(33) Niels Bohr's concept of complementarity challenged the notion of objective reality.

(34) Bohr's theory of atomic structure was a major breakthrough in the field of physics.

(35) The Bohr model successfully explained the stability of atoms and the periodic table.

(36) Bohr's atomic model was a significant departure from the earlier plum pudding model.

(37) The Bohr effect is crucial for understanding how oxygen is transported in the blood.

(38) Niels Bohr's atomic model revolutionized our understanding of the structure of atoms.

(39) The Bohr effect describes the influence of pH on the binding of oxygen to hemoglobin.

(40) Bohr's model of the hydrogen atom successfully explained the observed spectral lines.

Bohr meaningful sentence

(41) Bohr's theory of atomic structure was a major breakthrough in the early 20th century.

(42) The Bohr model predicts that electrons can only occupy certain allowed energy levels.

(43) Bohr's concept of electron shells helped explain the chemical properties of elements.

(44) Bohr's model of the atom was later refined and expanded upon by subsequent scientists.

(45) Bohr's theory of quantum jumps challenged the deterministic view of classical physics.

(46) Niels Bohr's legacy as a scientist and mentor continues to inspire future generations.

(47) The Bohr equation calculates the energy levels of an electron in a hydrogen-like atom.

(48) Bohr's theory of atomic structure provided a basis for explaining chemical reactivity.

(49) Bohr's principle of complementarity emphasizes the dual nature of particles and waves.

(50) Niels Bohr's model of the atom provided a framework for understanding chemical bonding.

Bohr sentence examples

(51) Niels Bohr's Nobel Prize in Physics recognized his pioneering work on atomic structure.

(52) Niels Bohr was a Danish physicist who made significant contributions to quantum theory.

(53) Bohr's concept of quantized energy levels laid the foundation for modern atomic theory.

(54) Niels Bohr's wave-particle duality theory explains the dual nature of light and matter.

(55) The Bohr magneton is defined as the magnetic moment of an electron in the hydrogen atom.

(56) Niels Bohr's experiments with alpha particles led to the discovery of the atomic nucleus.

(57) Niels Bohr's concept of complementarity emphasized the dual nature of particles and waves.

(58) Bohr's theory of atomic spectra explained the observed line spectra of different elements.

(59) Bohr's model of the atom provided a framework for understanding the behavior of electrons.

(60) Niels Bohr's theory of nuclear fission paved the way for the development of nuclear power.

Sentence with bohr

(61) Bohr's concept of quantum jumps explained the discontinuous nature of electron transitions.

(62) Bohr's model of the atom was a stepping stone towards the development of quantum mechanics.

(63) Niels Bohr's concept of quantum jumps explained the discrete nature of electron transitions.

(64) Niels Bohr's correspondence principle bridged the gap between classical and quantum physics.

(65) Bohr's theory of electron shells explained the periodicity of elements in the periodic table.

(66) The magnetic moment of a spinning charged particle is quantized in units of the Bohr magneton.

(67) Bohr's model of the atom was a stepping stone towards the development of quantum field theory.

(68) Bohr's model of the atom was instrumental in the development of the field of quantum chemistry.

(69) Bohr's model successfully explained the spectral lines observed in hydrogen and other elements.

(70) Bohr's model of the atom was a major breakthrough in our understanding of the microscopic world.

Use bohr in a sentence

(71) Niels Bohr's research on the stability of atomic nuclei led to the development of nuclear power.

(72) Bohr's model of the hydrogen atom provided a foundation for the development of quantum mechanics.

(73) Bohr's model allowed scientists to calculate the energy levels and wavelengths of spectral lines.

(74) Niels Bohr's concept of complementarity highlighted the interconnectedness of physical phenomena.

(75) Niels Bohr's debates with Albert Einstein on the completeness of quantum mechanics are legendary.

(76) Niels Bohr's theories on complementarity and wave-particle duality are still widely studied today.

(77) Niels Bohr's experiments with uranium isotopes paved the way for the discovery of nuclear fission.

(78) Niels Bohr received the Nobel Prize in Physics in 1922 for his research on the structure of atoms.

(79) Niels Bohr's research on the hydrogen atom led to the discovery of energy levels and electron orbits.

(80) Niels Bohr's Bohr model of the atom depicts electrons orbiting the nucleus in discrete energy levels.

Sentence using bohr

(81) Niels Bohr's research on the behavior of electrons in atoms laid the foundation for modern chemistry.

(82) Bohr's model successfully explained the stability of atoms and the emission of characteristic spectra.

(83) Niels Bohr's concept of wave-particle duality revolutionized our understanding of the nature of light.

(84) Niels Bohr was a Danish physicist who made significant contributions to the field of quantum mechanics.

(85) Bohr's principle of complementarity states that particles can exhibit both wave and particle properties.

(86) Bohr's theory of atomic spectra explained the discrete lines observed in emission and absorption spectra.

(87) Bohr's model of the atom provided a framework for understanding chemical bonding and molecular structure.

(88) The Bohr frequency condition is essential for understanding the emission and absorption spectra of atoms.

(89) Bohr's theory of atomic spectra provided a foundation for understanding the behavior of light and matter.

(90) Niels Bohr's quantum theory of the hydrogen atom provided a breakthrough in understanding atomic spectra.

Bohr example sentence

(91) Niels Bohr's concept of superposition explains how particles can exist in multiple states simultaneously.

(92) Niels Bohr's research on the behavior of electrons in metals laid the foundation for solid-state physics.

(93) Bohr's work laid the groundwork for the development of the Copenhagen interpretation of quantum mechanics.

(94) Bohr's principle of superposition states that quantum systems can exist in multiple states simultaneously.

(95) Bohr's concept of wave-particle duality challenged the classical notion of particles as localized objects.

(96) Bohr's work on the Copenhagen interpretation sparked debates and discussions among physicists for decades.

(97) Bohr's contributions to the field of quantum mechanics continue to influence and inspire scientists today.

(98) Niels Bohr's Copenhagen interpretation of quantum mechanics remains a subject of philosophical discussion.

(99) Bohr's atomic model was based on the idea that electrons occupy specific energy levels around the nucleus.

(100) Niels Bohr's concept of the wave function describes the probability distribution of a particle's position.

Sentence with word bohr

(101) Niels Bohr's concept of the quantization of angular momentum explains the discrete energy levels of atoms.

(102) Niels Bohr's collaboration with Albert Einstein sparked intense debates on the nature of quantum mechanics.

(103) Niels Bohr's philosophical views on the limits of scientific knowledge influenced generations of physicists.

(104) Niels Bohr's research on the behavior of electrons in magnetic fields led to the discovery of electron spin.

(105) Bohr's model of the atom was a significant departure from the earlier planetary model proposed by Rutherford.

(106) The Bohr radius is a measure of the average distance between the electron and the nucleus in a hydrogen atom.

(107) Niels Bohr was a Danish physicist who made significant contributions to the understanding of atomic structure.

(108) Niels Bohr's contributions to the Manhattan Project played a crucial role in the development of atomic weapons.

(109) Bohr's theory of complementarity states that particles can exhibit both wave-like and particle-like properties.

(110) Niels Bohr's contributions to the Manhattan Project played a crucial role in the development of the atomic bomb.

Sentence of bohr

(111) Niels Bohr's concept of quantum jumps describes the instantaneous transition of electrons between energy levels.

(112) Niels Bohr's concept of the quantum of action, known as Planck's constant, is a fundamental constant in physics.

(113) Niels Bohr's concept of the exclusion principle explains why no two electrons can occupy the same quantum state.

(114) Niels Bohr's concept of quantum entanglement predicted the existence of non-local correlations between particles.

(115) Bohr's model of the atom was a significant departure from the earlier plum pudding model proposed by J.J. Thomson.

(116) Bohr's model of the atom provided a visual representation of the otherwise abstract concepts of quantum mechanics.

(117) Bohr's principle of conservation of energy states that energy is neither created nor destroyed in a quantum system.

(118) Niels Bohr's work on the liquid drop model of the atomic nucleus contributed to the development of nuclear physics.

(119) Niels Bohr's research on the behavior of electrons in magnetic fields laid the groundwork for modern quantum theory.

(120) Niels Bohr's principle of conservation of energy states that energy cannot be created or destroyed, only transformed.

Bohr used in a sentence

(121) Niels Bohr's work on the Copenhagen interpretation of quantum mechanics is highly regarded in the scientific community.

(122) Niels Bohr's work on the liquid drop model of the atomic nucleus contributed to the understanding of nuclear stability.

(123) Niels Bohr's contributions to the field of physics earned him a place among the greatest scientists of the 20th century.

(124) Niels Bohr's concept of complementarity suggests that particles can exhibit both wave-like and particle-like properties.

(125) Niels Bohr's philosophical views on the nature of reality and the limits of scientific knowledge continue to be debated.

(126) Niels Bohr's concept of the correspondence principle reconciles classical and quantum mechanics in the macroscopic world.

(127) Niels Bohr's collaboration with Albert Einstein led to the famous Einstein-Bohr debates on the nature of quantum mechanics.

(128) Niels Bohr's concept of quantum superposition described the ability of particles to exist in multiple states simultaneously.

(129) Niels Bohr's principle of indeterminacy states that certain properties of particles cannot be simultaneously known with precision.

(130) Bohr's correspondence principle states that classical physics is a valid approximation of quantum mechanics in large-scale systems.

Bohr sentence in English

(131) The Bohr frequency condition relates the energy difference between two atomic states to the frequency of absorbed or emitted radiation.

(132) Niels Bohr's correspondence principle states that classical physics is a valid approximation of quantum mechanics in certain situations.

(133) The Bohr frequency condition relates the energy difference between two atomic states to the frequency of the emitted or absorbed radiation.

(134) Niels Bohr's concept of entanglement suggests that particles can become linked in such a way that their states are dependent on each other.

(135) Bohr's philosophy emphasized the importance of complementarity and the limitations of classical concepts in understanding the quantum world.

(136) Niels Bohr's collaboration with Werner Heisenberg on the uncertainty principle reshaped our understanding of measurement in quantum mechanics.

(137) Bohr's correspondence principle states that the predictions of quantum mechanics must agree with classical physics in the limit of large quantum numbers.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Bohr. They do not represent the opinions of TranslateEN.com.