rotational inertia
... extending your arms, rolling up in a ball, etc. By doing that, you will rotate or spin more easily or less easily, depending on if you increased or decreased your rotational inertia. Gymnasts, ice-skaters, divers, and dancers all use ...
... extending your arms, rolling up in a ball, etc. By doing that, you will rotate or spin more easily or less easily, depending on if you increased or decreased your rotational inertia. Gymnasts, ice-skaters, divers, and dancers all use ...
Some Quantum Computational Circuits
... |00000000⟩. We then take the Quantum Fourier Transform of this base state. Think of this as producing a mixed state where all numbers are represented with equal weights. We then apply several Grover-Gate operations. Each of these operations amplifies the searched value and weakens all other values. ...
... |00000000⟩. We then take the Quantum Fourier Transform of this base state. Think of this as producing a mixed state where all numbers are represented with equal weights. We then apply several Grover-Gate operations. Each of these operations amplifies the searched value and weakens all other values. ...
- Ingineeri.com
... prime numbers, so that there is no known way to accomplish this factorization in a practical time. In secret key encryption, a k-bit "secret key" is shared by two users, who use it to transform plaintext inputs to cryptotext for transmission and back to plaintext upon receipt. To make unauthorized d ...
... prime numbers, so that there is no known way to accomplish this factorization in a practical time. In secret key encryption, a k-bit "secret key" is shared by two users, who use it to transform plaintext inputs to cryptotext for transmission and back to plaintext upon receipt. To make unauthorized d ...
Bridging scales in nuclear physics
... The basis employed in NCSM computations needs to differentiate between protons and neutrons. This can be achived by using the isospin formalism, which adds two quantum numbers to describe the state: the isospin t and its projection mt . For nucleons we have t = 12 and mt = − 12 (+ 12 ) for proton (n ...
... The basis employed in NCSM computations needs to differentiate between protons and neutrons. This can be achived by using the isospin formalism, which adds two quantum numbers to describe the state: the isospin t and its projection mt . For nucleons we have t = 12 and mt = − 12 (+ 12 ) for proton (n ...
1 - Journal of Optoelectronics and Advanced Materials
... amorphous silicon, in particular inexpensive photovoltaic panels of large surface, and matrices of millions of transistors for the driving of the pixels of large displays. ...
... amorphous silicon, in particular inexpensive photovoltaic panels of large surface, and matrices of millions of transistors for the driving of the pixels of large displays. ...
Ultimate Intelligence Part I: Physical Completeness and Objectivity
... matrix. Furthermore, the dynamic time evolution of a wave function is known to be unitary, which entails that if µ is a quantum system, it will remain computable dynamically. Therefore, if µ is a quantum system with a finite density matrix, convergence theorem holds. The second piece of evidence fro ...
... matrix. Furthermore, the dynamic time evolution of a wave function is known to be unitary, which entails that if µ is a quantum system, it will remain computable dynamically. Therefore, if µ is a quantum system with a finite density matrix, convergence theorem holds. The second piece of evidence fro ...
Finite size scaling for critical parameters of simple diatomic molecules
... by the following [1]: recent experimental searches for the smallest stable multiply charged anions in the gas phase [2± 4]; ® nding limits on the stability of positive molecular ions [5± 7], and experimental and theoretical work on systems in external electric and magnetic ® elds [8, 9]. For example ...
... by the following [1]: recent experimental searches for the smallest stable multiply charged anions in the gas phase [2± 4]; ® nding limits on the stability of positive molecular ions [5± 7], and experimental and theoretical work on systems in external electric and magnetic ® elds [8, 9]. For example ...
Decoherence and open quantum systems
... In quantum information theory entanglement is used as a source for many different applications, for instance in quantum cryptography, teleportation schemes or quantum computation. To keep this entanglement in the system as long as possible we have to protect it against different environmental influe ...
... In quantum information theory entanglement is used as a source for many different applications, for instance in quantum cryptography, teleportation schemes or quantum computation. To keep this entanglement in the system as long as possible we have to protect it against different environmental influe ...
