Research and Answer Several Questions in Quantum Physics (Term Paper Sample)

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Science
Question 1
A quantum measurement is a type of measurement that always cause the system to jump into an Eigen state of the being measured. When we use quantum theory to describe cognitive processes, we get two lines of thoughts. The first thought is that when it comes to decision making, the outcomes of these processes appear quantum due to some physical processes in the brain that are quantum. The second thought is that the basic physical processes in the brain are classical and the apparent features of some decision-making processes come up due to the complexity in which the thoughts and feelings are connected to the basic processes occurring within the brain. Memory search is the process of recalling past events. The speed at which human beings recall past events depend on various processes that take place in the brain. We realize that both the processes are random. There is no specific order in which these two follow. An event may trigger the brain to begin some processes that lead to recalling past events. This does not occur in quantum measurement since the processes are indeterministic.
Question 2
Bohr had a unique approach to quantum measurement. Niels Bohr came up with a theory that had two postulates on this measurement. He suggested that an atomic system is only stable in a certain set of states, generally known as the stationary states. Each of these state are associated with discrete energy. A change in the discrete energy results in a complete change from one state to another. In the second postulate, Bohr added that the chances of an atom to absorb and emit radiations is dependent on the law according to which energy of the radiation is given by the change in energy between two stationary states. The whole model put forth by Borh brought in the element of discontinuity and indeterminism foreign to classical mechanics. Unfortunately, the model could not possibly predict when the transition would take place and the manner in which it will occur. In addition, there was no external forces to determine the return of an atom to its initial position. This model suggested that the frequency of light, which an electron emit during a transition, depends on the difference in the prior and the final energy levels. This knowledge is also employed in quantum memory measurement where all the processes are indeterministic. Bring the concept to the social justice; it is always hard to predict the outcome of a case until a final verdict is made. In addition, every event or change in a system has a cause. Nothing happens freely. Another great lesson to learn from this model is that everything has a value attached to it. We also need to learn that physical objects exist in space and time. All physical objects are localizable. They do not exist everywhere in space and time but they are located a specific place.
Question 3.
Hume’s problem of induction is a philosophical question determining whether the inductive reasoning amounts to knowledge comprehended sense. In this reasoning, there is no justifications of the claim made. It entails generalization about different things based on number of observations made in the past. The inference that all monkeys we have seen are black, and therefore, all monkeys are black can be true until a different color of monkeys is discovered. In inductive reasoning, a series of observations are made and inferences drawn out of the observations. A series of observations that a man goes to play a golf on Sunday, it seems valid to make inference that the next Sunday, he will go to play golf, in other words, the man plays golf every Sunday. The Raven paradox arises from the question of what entails evidence of a statement made. From our example above, we can hypothesis that all monkeys are black, this statement in logical terms would also mean that nothing that is not black is a monkey. This means that in all the situations where the second statement is true, then the first one is also true and in circumstances where the first statement is false, then the second one is also false. This creates a big paradox and it has elicited varied reactions from various philosophers and scientist. It is important to explore induction reasoning in order to make proper decisions about different phenomena while avoiding generalization of things. Scientists and humans at large must take keen interest in order to enable them clarify issues in a more elaborate manner other than just making mere conclusions based on observations.
Question 4
In perspectival view of measurement, it involves carefully analyzing the role of the concept of the observer. There is always the limiting case of series of conceptions of this view of measurement. In many cases, this view is usually affected by the conceptual patterns of the observer. When we come to stabilization view of measurement, we gain consistency in measurement. The measurements are relatively unchanging. A good example is the optical intensity stabilization. This is a versatile box used for power stabilization of light sources like the lasers and bulbs. We notice that this second view is more accurate compared to the perspectival view. Another example of stabilization occurs in the electrodeposited silicon thin films. This process involves the use of post-annealing step in inert atmosphere. The understanding and use of the stabilization process in Silicon thin film electrodeposited in organic solvents gives rise to their use in many applications. In my final example on stabilization, there is the latest active climate stabilization, which involves the management of the radioactive forcing of the earth’s temperatures. From the above examples, we realize that stabilization view of measurement has been in practice more than the perspectival view. Scientists have been relying on stabilization in most of their experiments and have been able to offer solutions to various problems facing humanity. The examples above are fairer to use since they cut across various education disciplines and give a detailed application of the stabilization process including the benefits of the process.
Question 5
There are many things to learn from these studies. First, we get to understand the power of the human brain. The ability to articulate issues and bring out difference in various areas of our lives. When it comes to quantum physics, it is currently at the core of technology. The knowledge is widely used to produce various effective electronics and solve various problems. The stabilization of climate is one of the most efficient ways being used by the scientist to control the greenhouse effect and regulate global warming as discussed above. The research that surrounds the concept of quantum physic is enormous that has attracted a number of researchers and scientists. All the processes that deal with radioactivity and generation of energy from atoms all revolve around this concept. It is therefore fundamental to explore such areas deeply to come up with new models and improve on the existing ones. Understanding what constitutes objects and the properties of those constituents is very crucial when developing other objects.<...