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... described in the same way as before, viz. by endowing each of them with a representative of its own. I would not call that one but rather the characteristic trait of quantum mechanics, the one that enforces its entire departure from classical lines of thought. By the interaction the two representati ...
... described in the same way as before, viz. by endowing each of them with a representative of its own. I would not call that one but rather the characteristic trait of quantum mechanics, the one that enforces its entire departure from classical lines of thought. By the interaction the two representati ...
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... On the other hand, the classic Shannon entropy is known to be a natural measure of the amount of uncertainty related to measurements for pairs of observables, discrete and continuous on an equal footing, when a quantum system actually is in a pure state. Hence, a properly posed question reveals obvi ...
... On the other hand, the classic Shannon entropy is known to be a natural measure of the amount of uncertainty related to measurements for pairs of observables, discrete and continuous on an equal footing, when a quantum system actually is in a pure state. Hence, a properly posed question reveals obvi ...
Chapter 9 Rotation
... A spool is free to rotate about a fixed axis, and a string wrapped around the axle of the spool causes the spool to rotate in a counterclockwise direction (see Figure 9-42a). However, if the spool is set on a horizontal tabletop, the spool instead (given sufficient frictional force between the table ...
... A spool is free to rotate about a fixed axis, and a string wrapped around the axle of the spool causes the spool to rotate in a counterclockwise direction (see Figure 9-42a). However, if the spool is set on a horizontal tabletop, the spool instead (given sufficient frictional force between the table ...
CHAPTER 8
... Fwrench = /L = (80 m · N)/(0.30 m) = 2.7 102 N. Because this torque is balanced by the torque produced by the bolt on the wrench, an equal torque is produced on the bolt. Because there are six points where a force is applied to the bolt, we have Fbolt = (/r)/6 = (80 m · N)/6(0.0075 m) = 1.8 10 ...
... Fwrench = /L = (80 m · N)/(0.30 m) = 2.7 102 N. Because this torque is balanced by the torque produced by the bolt on the wrench, an equal torque is produced on the bolt. Because there are six points where a force is applied to the bolt, we have Fbolt = (/r)/6 = (80 m · N)/6(0.0075 m) = 1.8 10 ...
Giancoli Ch 8.Word
... Fwrench = /L = (80 m · N)/(0.30 m) = 2.7 102 N. Because this torque is balanced by the torque produced by the bolt on the wrench, an equal torque is produced on the bolt. Because there are six points where a force is applied to the bolt, we have Fbolt = (/r)/6 = (80 m · N)/6(0.0075 m) = 1.8 10 ...
... Fwrench = /L = (80 m · N)/(0.30 m) = 2.7 102 N. Because this torque is balanced by the torque produced by the bolt on the wrench, an equal torque is produced on the bolt. Because there are six points where a force is applied to the bolt, we have Fbolt = (/r)/6 = (80 m · N)/6(0.0075 m) = 1.8 10 ...
Momentum
... The units for momentum would be mass units times velocity units. The standard metric unit of momentum is the kg*m/s. While the kg*m/s is the standard metric unit of momentum, there are a variety of other units which are acceptable (though not conventional) units of momentum; examples include kg*mi ...
... The units for momentum would be mass units times velocity units. The standard metric unit of momentum is the kg*m/s. While the kg*m/s is the standard metric unit of momentum, there are a variety of other units which are acceptable (though not conventional) units of momentum; examples include kg*mi ...
Quantum Fingerprints that Keep Secrets
... The notion of quantum fingerprints has been introduced in [BCWdW01] mainly in the context of communication complexity. The main conceptual contribution of the present work is to view quantum fingerprints as a cryptographic primitive. Nevertheless, our results can be interpreted in the language of co ...
... The notion of quantum fingerprints has been introduced in [BCWdW01] mainly in the context of communication complexity. The main conceptual contribution of the present work is to view quantum fingerprints as a cryptographic primitive. Nevertheless, our results can be interpreted in the language of co ...
The Asymptotic Safety Scenario in Quantum Gravity
... properties of matter. For example nonvanishing connected correlators of a matter energy momentum tensor should be a legitimate source of gravitational radiation as well (see [81]). Of course this does not tell in which sense the geometry is off-shell, nor which class of possible geometries ought to ...
... properties of matter. For example nonvanishing connected correlators of a matter energy momentum tensor should be a legitimate source of gravitational radiation as well (see [81]). Of course this does not tell in which sense the geometry is off-shell, nor which class of possible geometries ought to ...
Chapter 7: Linear Momentum and Collisions
... Insight: When you compare two car crashes (for example, into a concrete barrier and into bales of hay) with the same initial speed, the impulses are the same (because the change in momentum is the same) but the forces are different. The greatest force corresponds to the smallest time interval, which ...
... Insight: When you compare two car crashes (for example, into a concrete barrier and into bales of hay) with the same initial speed, the impulses are the same (because the change in momentum is the same) but the forces are different. The greatest force corresponds to the smallest time interval, which ...