J. J. Thomson's experiments
GPTKB entity
Statements (72)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:scientific_experiments
|
| gptkbp:conducted |
gptkb:J._J._Thomson
gptkb:Cambridge_University high-voltage power supply |
| gptkbp:contributed_to |
gptkb:Quantum_Mechanics
|
| gptkbp:discovered_by |
electron
|
| gptkbp:established |
the field of particle physics
|
| gptkbp:first_appearance |
the nature of cathode rays
|
| https://www.w3.org/2000/01/rdf-schema#label |
J. J. Thomson's experiments
|
| gptkbp:influenced |
modern physics
the development of quantum theory the study of chemical bonding the design of particle accelerators |
| gptkbp:inspired |
further research in atomic structure
|
| gptkbp:involved |
deflection of rays by electric fields
deflection of rays by magnetic fields the measurement of electric charge the measurement of mass the study of cathode rays the use of electromagnets |
| gptkbp:is_a_foundation_for |
the development of quantum mechanics
|
| gptkbp:is_essential_for |
the advancement of theoretical physics
|
| gptkbp:is_influential_in |
the understanding of molecular structures
the study of chemical reactions the study of condensed matter physics the understanding of light and matter interactions |
| gptkbp:is_recognized_by |
gptkb:Nobel_Prize_in_Physics
a breakthrough in physics their impact on technology |
| gptkbp:is_significant_for |
the field of astrophysics
the field of electronics |
| gptkbp:led_to |
gptkb:Thomson's_model_of_the_atom
the discovery of isotopes the development of atomic models the identification of positive and negative charges the concept of the electron cloud the understanding of atomic stability the understanding of electron behavior in fields |
| gptkbp:occurs_in |
1897
|
| gptkbp:published_by |
gptkb:Philosophical_Magazine
|
| gptkbp:showed |
the behavior of charged particles
the charge-to-mass ratio of the electron |
| gptkbp:uses |
cathode ray tube
vacuum tubes |
| gptkbp:was_a_catalyst_for |
the study of atomic particles
|
| gptkbp:was_a_demonstration_of |
the concept of charge carriers
the existence of subatomic particles the wave-particle duality of electrons |
| gptkbp:was_a_factor_in |
the development of modern chemistry
the advancement of scientific instrumentation |
| gptkbp:was_a_precursor_to |
quantum electrodynamics
the discovery of the neutron |
| gptkbp:was_a_turning_point_for |
the understanding of atomic structure
|
| gptkbp:were_a_critical_development_in |
the field of nanotechnology
|
| gptkbp:were_a_foundational_aspect_of |
the study of particle interactions
the study of atomic energy levels |
| gptkbp:were_a_key_development_in |
the understanding of chemical properties.
the understanding of electricity the understanding of electromagnetic radiation |
| gptkbp:were_a_major_advancement_in |
experimental physics
|
| gptkbp:were_a_major_step_towards |
the development of quantum field theory
|
| gptkbp:were_a_milestone_in |
the history of science
|
| gptkbp:were_a_significant_advancement_in |
the understanding of atomic interactions
|
| gptkbp:were_a_significant_contribution_to |
the field of materials science
the field of theoretical chemistry |
| gptkbp:were_a_significant_milestone_in |
the history of atomic theory
the history of experimental science |
| gptkbp:were_critical_for |
the development of nuclear physics
|
| gptkbp:were_foundational_for |
the field of spectroscopy
the field of chemistry |
| gptkbp:bfsParent |
gptkb:Thomson's_plum_pudding_model
|
| gptkbp:bfsLayer |
7
|