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What does classical theory say about the planetary model of the atom and how does it explain the behavior of electrons within the atom?
Classical theory, also known as the planetary model of the atom, suggests that electrons orbit the nucleus in fixed, circular paths similar to planets orbiting the sun. This model explains the behavior of electrons by proposing that they have specific energy levels and move in stable orbits around the nucleus.
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How did scientists know that the electron did not follow the law of moving charges?
Scientists observed that electrons behaved differently than expected in certain experiments, such as the photoelectric effect. This led them to realize that the behavior of electrons could not be explained by classical laws governing the motion of charges. The development of quantum mechanics helped explain the unique behavior of electrons and how they do not always follow classical laws.
Can classical physics explain the photoelectric effect?
No. To explain the photoelectric effect, you have to think of light as a particle, not a wave. The fact that light can be both a wave and a particle is part of quantum mechanics, not classical physics.
Why does classical physics fail to explain the photoelectric effect?
Classical physics fails to explain the photoelectric effect because it is based on the wave theory of light, which predicts that the energy of a wave is proportional to its intensity. However, the photoelectric effect shows that the energy of ejected electrons is dependent on the frequency of light, not its intensity, as predicted by quantum theory.
Why does classical physics predict that atoms should collapse?
Classical physics predicts that electrons orbiting the nucleus in atoms should continuously radiate energy and spiral inward, eventually collapsing into the nucleus due to electromagnetic forces. This prediction contradicts observations and the stability of atoms, which led to the development of quantum mechanics to explain the behavior of particles at atomic scales.
What are the reason the classical physics failed?
It is a macroscopic theory. Their theoretical values are not equal to the experimental values. The classical theory cannot explain the photoelectric effect,compton effect,magnetic properties briefly..... it obeys the classical mechanics. it does not briefly explain the atoms internal parts . hence it is rectified by quantum physics....!
Why did niels bohr invent the planetary atom?
Niels Bohr developed the concept of the planetary atom in order to explain the behavior of electrons in atoms. He proposed that electrons orbit the nucleus in specific energy levels, and that they could jump between these levels by absorbing or emitting energy. This model helped to provide a more accurate explanation of atomic structure and the behavior of electrons.
How did scientists know that the electron did not follow the law of moving charges?
Scientists observed that electrons behaved differently than expected in certain experiments, such as the photoelectric effect. This led them to realize that the behavior of electrons could not be explained by classical laws governing the motion of charges. The development of quantum mechanics helped explain the unique behavior of electrons and how they do not always follow classical laws.
How do you explain Classical Conditioning Theory?
Explain Classical Conditioning Theory?
Can classical physics explain the photoelectric effect?
No. To explain the photoelectric effect, you have to think of light as a particle, not a wave. The fact that light can be both a wave and a particle is part of quantum mechanics, not classical physics.
Why Bohr model is inaccurate model of the atom?
The Bohr model is inaccurate because it is based on classical mechanics, which does not fully explain the behavior of electrons in atoms. It also fails to account for electron-electron interactions and the wave-like nature of particles. Quantum mechanics provides a more accurate description of the behavior of electrons in atoms.
Who portrays the planetary model of an atom?
Niels Bohr is credited with developing the planetary model of the atom, which depicts electrons orbiting the nucleus in discrete energy levels. This model helped explain the stability of atoms and the emission of light at specific wavelengths.
What is planatery model?
The planetary model is a simplified representation of an atom where electrons orbit the nucleus in fixed, circular paths at specific energy levels. It was introduced by Niels Bohr in 1913 to explain the behavior of electrons in an atom. However, this model has been replaced by more accurate models, such as the quantum mechanical model.
Why the classical theory of solids cannot explain the theory of solids?
The classical theory of solids is based on the assumption that atoms are fixed in a lattice structure and do not move. However, quantum mechanics shows that atoms in solids have wave-like properties and do exhibit movement. This discrepancy between classical theory and quantum mechanics makes classical theory inadequate for explaining the behavior of solids at the atomic level.
Who was One of the first psychologists to recognize the real life implications of classical conditioning?
One of the first psychologists to recognize the real-life implications of classical conditioning was John B. Watson. He applied the principles of classical conditioning to explain human behavior and emotions, highlighting its significance in understanding and shaping behavior in real-world settings.
EXPLAIN WHAT ARE THE INHEReNT PROPERTIES OF CLASSICAL PHYSICS. AND HOW THEY SEEMS IN ADEQUATE.EXPLAIN SOME OF THE PHYSICAL PHENOMENA AND EXPLANATATION DATA .EXPLAIN HOW THE DEVIATION FROM THE CLASSI?
Classical physics relies on deterministic laws, continuous quantities, and a distinct separation between particles and waves. However, it fails to explain certain phenomena, such as the behavior of subatomic particles in quantum mechanics. Deviation from classical physics becomes evident in experiments like the double-slit experiment, where particles exhibit wave-like behavior, challenging the classical notion of determinism and separate particle-wave duality. This deviation led to the development of quantum mechanics to describe the behavior of particles at the microscopic level.
Who used mathematics to explain the laws of planetary motion?
Kepler
An electron model is a good approximation of?
An electron model is a good approximation of the behavior of electrons in certain macroscopic phenomena, such as electricity and magnetism. It helps to explain how electrons move in a circuit or interact with magnetic fields. However, in more complex quantum phenomena, the electron model may not accurately represent the behavior of electrons.
