A paradox in quantum measurement theory - Philsci
... correct, quantum measurement theory is not merely dependant on the frame of collapse it is positively inconsistent, and experimental tests would have to be done to verify whether the apparent non-local effects predicted are real. If they are real, then quantum measurement theory would have to be mod ...
... correct, quantum measurement theory is not merely dependant on the frame of collapse it is positively inconsistent, and experimental tests would have to be done to verify whether the apparent non-local effects predicted are real. If they are real, then quantum measurement theory would have to be mod ...
Gravity and dark energy from quantum information
... Information erasing One can also think this DE as cosmic Hawking radiation! In short, T~1/r, S~ r^2 density M_P^2 /r^2 ~ M_P^2 H^2 as observed ...
... Information erasing One can also think this DE as cosmic Hawking radiation! In short, T~1/r, S~ r^2 density M_P^2 /r^2 ~ M_P^2 H^2 as observed ...
Total Dissolved Solids
... time scaled from 0 to 10 minutes. The data rate is set to 12 samples/minute. In the upper right panel is the current reading from the CO2 sensor; lab air should be around 500 ppm unless lots of people have been around in the lab. 3. Obtain a small potted plant OR place cuttings from a plant into a 2 ...
... time scaled from 0 to 10 minutes. The data rate is set to 12 samples/minute. In the upper right panel is the current reading from the CO2 sensor; lab air should be around 500 ppm unless lots of people have been around in the lab. 3. Obtain a small potted plant OR place cuttings from a plant into a 2 ...
Why There are 3 Dimensions Final 4a
... because time/gravity/relativity or the Higgs field as well as electromagnetic/ , weak and the strong forces all intersect in three dimensions at one sub-quantun point. And fields of spin and thier entropy transports the standard models properties and limits our movements. ...
... because time/gravity/relativity or the Higgs field as well as electromagnetic/ , weak and the strong forces all intersect in three dimensions at one sub-quantun point. And fields of spin and thier entropy transports the standard models properties and limits our movements. ...
1 Perspectives on Quantum Reality
... be unobservable in practice; and D (the width of the multiplying Gaussian) has been chosen sufficiently large so that violations of the conservation of energy (which are inevitable on any collapse theory since a collapse localizes the position of a wave function) will be sufficiently small as to be ...
... be unobservable in practice; and D (the width of the multiplying Gaussian) has been chosen sufficiently large so that violations of the conservation of energy (which are inevitable on any collapse theory since a collapse localizes the position of a wave function) will be sufficiently small as to be ...
Hydrogen Atom
... the angular part and mostly from l. Thus the names depend on l. l=0 is S, l=1 is P, l=2 is D, l=3 if F, l=4 is G, …. What do the radial functions look like? Mostly they are an exponential decay multiplied by a polynomial. The polynomial gets higher order as n increases. Thus they all decay to zero a ...
... the angular part and mostly from l. Thus the names depend on l. l=0 is S, l=1 is P, l=2 is D, l=3 if F, l=4 is G, …. What do the radial functions look like? Mostly they are an exponential decay multiplied by a polynomial. The polynomial gets higher order as n increases. Thus they all decay to zero a ...
Particle in a box
In quantum mechanics, the particle in a box model (also known as the infinite potential well or the infinite square well) describes a particle free to move in a small space surrounded by impenetrable barriers. The model is mainly used as a hypothetical example to illustrate the differences between classical and quantum systems. In classical systems, for example a ball trapped inside a large box, the particle can move at any speed within the box and it is no more likely to be found at one position than another. However, when the well becomes very narrow (on the scale of a few nanometers), quantum effects become important. The particle may only occupy certain positive energy levels. Likewise, it can never have zero energy, meaning that the particle can never ""sit still"". Additionally, it is more likely to be found at certain positions than at others, depending on its energy level. The particle may never be detected at certain positions, known as spatial nodes.The particle in a box model provides one of the very few problems in quantum mechanics which can be solved analytically, without approximations. This means that the observable properties of the particle (such as its energy and position) are related to the mass of the particle and the width of the well by simple mathematical expressions. Due to its simplicity, the model allows insight into quantum effects without the need for complicated mathematics. It is one of the first quantum mechanics problems taught in undergraduate physics courses, and it is commonly used as an approximation for more complicated quantum systems.