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Physics, particularly quantum physics (which is essentially mathematics).
An advantage of using the scientific notation is that scientists have to use large and small numbers and this helps them by showing the number in a smaller way.
Because they often work with very large or very small measurements.
Scientific notation tends to be useful any time you have to deal with either very large numbers or very small numbers.
Erwin Schrödinger was a physicist and a father of quantum mechanics. Quantum mechanics deals a lot with probability. His famous Schrödinger equation, which deals with how the quantum state of a physical system changes in time, uses probability in how it deals with the local conservation of probability density. For more information, please see the Related Link below.
An argument against a small time quantum: Efficiency. A small time quantum requires the timer to generate interrupts with short intervals. Each interrupt causes a context switch, so overhead increases with a larger number of interrupts. An argument for a small time quantum: Response time. A large time quantum will reduce the overhead of context switching since interrupts will be generated with relatively long intervals, hence there will be fewer interrupts. However, a short job will have to wait longer time on the ready queue before it can get to execute on the processor. With a short time quantum, such a short job will finish quicker and produces the result to the end user faster than with a longer time quantum
None. A quantum does not measure time.
Excitations frequency is the frequence of the electron making a quantum spring from a higher level to an lower. In cemical reactions the excitations happens alle the time, an it happens in a frequence.
Einstein's work on the Photoelectric effect, which won him the Nobel prize in 1921 was a bulwark of Quantum Mechanics. Einstein went off in another direction because of his inate suspicion that Quantum Mechanics has severe internal difficulties. Quantum Mechanics and Relativity have not yet been reconciled--but they are moving together slowly. Quantum Gravity seems to be key to the issue and may be resolved by String Theory.
it could get cloged if u put to much in at the same time u have to put it in little by little
In bacteria, translation occurs in the cell's cytoplasm, where the large and small protein production is addition of one amino acid at a time to the end of a protein.
no
Processes which need more frequent servicing, for instance interactive processes such as editors, can be in a queue with a small time quantum. Processes with no need for frequent servicing can be in a queue with a larger quantum, requiring fewer context switches to complete the processing, making more efficient use of the computer.
Processes which need more frequent servicing, for instance interactive processes such as editors, can be in a queue with a small time quantum. Processes with no need for frequent servicing can be in a queue with a larger quantum, requiring fewer context switches to complete the processing, making more efficient use of the computer.
Processes which need more frequent servicing, for instance interactive processes such as editors, can be in a queue with a small time quantum. Processes with no need for frequent servicing can be in a queue with a larger quantum, requiring fewer context switches to complete the processing, making more efficient use of the computer.
When tornadoes merge they simply become one tornado large than either of the original two. It is an unusual occurrence and most of the time that it does happen it involves a large tornado absorbing a small one without being much affected.
L. S. Schulman has written: 'Time's arrows and quantum measurement' -- subject(s): Thermodynamics, Mathematical physics, Quantum theory, Time measurements, Quantum statistics, Cosmology