The reasons behind uncertainty when it comes to quantum physics can be summed in one word - fragmentation
The basic principle of Quantum Physics is uncertainty. This is at the core of the Uncertainty Principle, Superposition of States, and Quantum Tunneling and Entanglement.Energy can occur only in discrete levels. This 'quantization' is determined by plank's constant6.626068 × 10-34 m2 kg / s
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....!
David C. Cassidy has written: 'Einstein and our world' -- subject(s): Physicists, Relativity (Physics), Quantum theory, Intellectual life, Influence, Biography 'Werner Heisenberg and the crisis in quantum theory, 1920-1925' -- subject(s): History, Quantum theory, Physics 'Uncertainty' -- subject(s): History, Quantum theory, Physics, Physicists, Biography 'Uncertainty -Op/124'
It does not. This type of physics does not apply to physical things.
You can measure some aspects of quantum uncertainty.
only really someone who understands maths or is a physics student level 3 to properly explain it.
There is no quantum physics of a moose. Quantum physics is a type of theoretical physics, and its laws do not apply to physical objects
Quantum physics does not affect reality in any way, rather it is a group of hypotheses that has been advanced to try to explain how the physical world works and why it works in that manner.
Nothing. Quantum is a branch of physics
according to it ,it is impossible to determine position and wavelength of a particle simultaneously in microscopic world which gave rise to quantum phy
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.
The Heisenberg Uncertainty principle is part of the foundations of Quantum Mechanics and is still considered to be valid today. It means there is a fundamental fuzziness or uncertainty about the world at the quantum level. Even in principle we cannot know to high accuracy say both the position and the momentum of a small particle like the electron.