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In any measurement, the product of the uncertainty in position of an object and the uncertainty in its momentum, can never be less than Planck's Constant (actually h divided by 4 pi, but this gives an order of magnitude of this law). It is important to note that this uncertainty is NOT because we lack good enough instrumentation or we are not clever enough to reduce the uncertainty, it is an inherent uncertainty in the ACTUAL position and momentum of the object.
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Who develped a principle that says it is impossible to know both location and mass of an electron at the same time?
Werner Heisenberg developed this principle, known as the Heisenberg Uncertainty Principle.
Heisenberg is famous for what principle?
Heisenberg is famous for the Heisenberg Uncertainty Principle, which states that it is impossible to simultaneously know both the exact position and exact momentum of a particle. This principle is a fundamental concept in quantum mechanics and has profound implications for our understanding of the behavior of particles on a very small scale.
Is the Uncertainty Principle a scientific law or theory?
Since it is called "the Heisenberg Uncertainty Principle" it is neither a scientific law nor a theory. It is a principle.
What are the two parts of the Heisenberg uncertainty principle?
Heisenberg uncertainty principle states that , the momentum and the position of a particle cannot be measured accurately and simultaneously. If you get the position absolutely correct then the momentum can not be exact and vice versa.
States that is imposible to know both the velocity and the position of a particle at the same time?
The heisenberg uncertainty principle is what you are thinking of. However, the relation you asked about does not exist. Most formalisms claim it as (uncertainty of position)(uncertainty of momentum) >= hbar/2. There is a somewhat more obscure and less useful relation (uncertainty of time)(uncertainty of energy) >= hbar/2. But in this relation the term of uncertainty of time is not so straightforward (but it does have an interesting meaning).
What is the relation between orbital concept and heisenberg's uncertainty principle?
Heisenberg's uncertainty principle affects the behaviour of orbitals.
Who develped a principle that says it is impossible to know both location and mass of an electron at the same time?
Werner Heisenberg developed this principle, known as the Heisenberg Uncertainty Principle.
Who invented the heisenberg's uncertainty principle?
Werner Heisenberg. Born in Munich, Germany in 1901 and died in 1976. Heisenberg examined features of qauntum mechanics that was absent in classical mechanics. Thus created the "Heisenberg Uncertainty Principle".
Heisenberg is famous for what principle?
Heisenberg is famous for the Heisenberg Uncertainty Principle, which states that it is impossible to simultaneously know both the exact position and exact momentum of a particle. This principle is a fundamental concept in quantum mechanics and has profound implications for our understanding of the behavior of particles on a very small scale.
Who was best known for his uncertainty principle?
Werner Heisenberg published this principle in 1927.
Is the Uncertainty Principle a scientific law or theory?
Since it is called "the Heisenberg Uncertainty Principle" it is neither a scientific law nor a theory. It is a principle.
What are the two parts of the Heisenberg uncertainty principle?
Heisenberg uncertainty principle states that , the momentum and the position of a particle cannot be measured accurately and simultaneously. If you get the position absolutely correct then the momentum can not be exact and vice versa.
According to Heisenberg uncertainty principle if the position of a moving particle is known what other quantity cannot be known?
According to the Heisenberg uncertainty principle if the position of a moving particle is known velocity is the other quantity that cannot be known. Heisenberg uncertainty principle states that the impossibility of knowing both velocity and position of a moving particle at the same time.
States that is imposible to know both the velocity and the position of a particle at the same time?
The heisenberg uncertainty principle is what you are thinking of. However, the relation you asked about does not exist. Most formalisms claim it as (uncertainty of position)(uncertainty of momentum) >= hbar/2. There is a somewhat more obscure and less useful relation (uncertainty of time)(uncertainty of energy) >= hbar/2. But in this relation the term of uncertainty of time is not so straightforward (but it does have an interesting meaning).
According to the heisenberg uncertainty principle if the position of a moving particle is known what other cannot be known?
According to the Heisenberg uncertainty principle if the position of a moving particle is known velocity is the other quantity that cannot be known. Heisenberg uncertainty principle states that the impossibility of knowing both velocity and position of a moving particle at the same time.
Who came up with the uncertainty principle?
The uncertainty principle was formulated by German physicist Werner Heisenberg in 1927 as part of his work in quantum mechanics. It states that certain pairs of physical properties, such as position and momentum of a particle, cannot be precisely known simultaneously.
Which german scientist formulated the 'uncertainty principal'?
In 1927 Werner Karl Heisenberg published his uncertainty principle stating that you cannot know the precise location of a particle and know its momentum at the same time.
