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piece of art
Student’s name
Professor
Course
Date
Introduction
The performance of any piece of art is always interesting to watch and listen to because art is a central tenet in human beings’ lives. I attended a performance about reggae music. this music originated from Jamaica, and the artist who sang the song was Bob Marley. A band performed the music in a concert hall, and it was presented to a large audience listening and watching the song’s performance. The performers were very seasoned, and some of the things I enjoyed most were the dancing styles and the song’s message as it emphasized people are coming together and making unity. This is an essential tenet of all human interactions.
Discussion
I enjoyed the dancing styles because I have always been interested in dancing, and I had joined a dance crew; however, I got held up and could not make it for practice, and therefore this kind of performance made me wish to dance. One of the instruments that made me love the performance was the bass guitar’s presence as it made the production and the quality of the performance very good. This, combined with the vocals, made the performance very apt. The band used different voices and combined them into the song; these were soprano, bass, and alto, which combined perfectly to bring the musical environment and experience to the people in the concert hall.
The music being reggae, one of the masterpieces in this field, had a great effect on the audience, and most people could be heard singing together in unison with the band; this was one of the most colorful things which made a great impact. The impact was not only to the audience but also to the band as it felt a great honor performing and people joining, a clear sign that the performance was good. It was also an honor to Bob Marley. Therefore the audience and the performers all were in unison, spreading and chanting the song’s message
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The song’s rhythm was the most significant part of the music as everyone in the hall followed closely in the rhythm. This could be seen through the body movements and gestures every person had on their faces. Almost everyone enjoyed the music, and some people in the audience woke up and began dancing to the tune of the music. In contrast, others remained seated but had their legs and heads in a movement to show that the music was very good and enjoyed it.
Bob Marley produced the song in 1977, and this he produced when he was in England after the wailers’ disbanding. Bob Marley talks of the people who do evil and talks of what awaits them at the end of life. He also preaches unity among the people of all nations and groups through the song. The music video was produced in 1984, which was three years after the death of Bob Marley. The central message of the song was peace and love. Through the song, bob Marley wanted to counteract the issues facing Jamaica at the time of the elections, which were not peaceful. Therefore he believed that people could live in peace instead of going through the turmoil of the election crisis where there was no peace and no love.
At that time, Bob was one of the most popular people in Jamaica, and his music had a lot of great positive impact on the general population in calming the forces that were against each other and bringing them to peace. The performance changed my thoughts in different ways because I realized that music could make people like bob Marley in the days deployed music to bring people together and make peace.
Conclusion
This was one of my best performances attended, and it opened my eyes to look at art and especially music from a different angle. This is an angle where music is useful to everyone and used to unite people.
Works cited
Marley, Bob, and Curtis Mayfield. One Love (People Get Ready). Warner Bros. Music, 1984.
Marley, Cedella, and Bob Marley. One love. Chronicle Books, 2011.
Miller, Marian, AL. “The Rastafarian in Jamaican Political Culture: The Marginalization of a Change Agent.” The Western Journal of Black Studies 17.2 (1993): 112.
Physics in Magnetic Resonance Imaging (MRI)
Name
Professor
Institution
Physics in (MRI) Magnetic Resonance Imaging
Date
Physics in Magnetic Resonance Imaging (MRI)
Instruction
An MRI is the image produced by a complex interplay that occurs between the RF pulses and the other intermittently activated fields. Both factors in play are under the control of a computer. For an MR image to be generated there must be a combination of both the spatial and the intensity information.
Figure SEQ Figure * ARABIC 1
The spatial information are recorded in various frequencies that must comprise of the spin echo signal. However, it is necessary to assume that the frequency of the true resonance will depend on the actual value (local) of the magnetic field in operations. On the other hand, McRobbie, et al, (2004) argues that it is also necessary to note that the magnetic field must be uniformly designed, and temporarily superimposed on the focal static field
Q1: Describe how MRI sequences spatially encode nuclei in the read and phase direction.
Based on the key principles of MRI such as relaxation, selective excitation, phase encoding and frequency encoding, it is easy to note that when a receiver coil set alongside an object, a current is induced in the object’s coil by a transverse magnetization. The signal is an integral of the real magnetization on throughout the volume. Therefore:
The spatial encoding has to vary the frequency of w(x; y; z; t) and the phase above the volume form each measurement to help in the recovery of the initial magnetization from the group of integrals. To achieve this, the variable (stationary in time) is applied to induce spatial distribution of frequencies over the whole volume. It is also noticeable that the spatial derivatives of: is responsible for the determination of the local resolution of the final image. However, since the constant gradients usually yield a uniform resolution all over the entire volume and the optimal bandwidth characteristics of the real current pattern in the gradient coils, it is quite easy to find that the linear magnetic fields are used in the MRI. In the light of the above statement, it is noteworthy to indicate that the selective excitation, frequency encoding and phase encoding are useful in MRI (McRobbie, et al, 2004)
Q2: Why are two Fourier transforms required to convert k-space data to an image?
Two Fourier transformations are required to convert k-space data to an image because the first Fourier transformation is in the read direction while the second one is n the phase direction of the K space data.
Explanation
After the first Fourier transformation, it is imperative to note that the intensity profiles that occur I the read direction is only a graphical representation of the of the real signal intensity in the Fourier’s read direction, as shown in figure 2 bellow:
Figure SEQ Figure * ARABIC 2: k space after the first Fourier transformation
If the information is to be viewed in reference to the phase direction, the intensity of the signal variation is likely to remain in an echo form as shown below:
Figure SEQ Figure * ARABIC 3: Data as echo
However in this direction, the spins are usually spatially encoded by just incrementing the actual phase of the spins. In the phase direction, the spins are spatially encoded by incrementing the phase of the spins. As the magnetic field is passing through zero, which is at the centre of the imaging magnet used, it is necessary to add the magnetic field strength to the spins occurring at the axis of the applied gradient. This may result in no change in phase for the nuclei positioned at the midpoint of the applied phase gradient. In the second Fourier transformation, the actual position of the nuclei in the frequency, as well as direction is easily determined. It is also healthy to state that the image of the actual nuclear spin density is generated inside the slice with respect to its position inside the same slice (Vinitski, et al, 2003pp, 501-511).
Q3: Draw a pulse program diagram for a spin echo pulse sequence. Discuss how each component of the MRI experiment affects transverse spin coherence and how this affects the lines of k-space data
Spin Echo Sequence
In the in echo pulse sequence diagram bellow, the pulse sequence is easily timed by adjusting to provide the T1-weighted, the Proton or spin density, as well as the T2-weighted images. However, the Dual echo as well as the multiecho sequences can easily be employed to obtain proton density as well as the T2-weighted images at the same time (simultaneously).
Avram et al., (2006, pp, 891-895) states that there are mainly two variables that are of interest, the TR (repetition time) and the echo time (TE). All of the sequence of the spin echo sequences usually have a slice selective 90 degree pulse, and the 180 degree refocusing pulses respectively(see figure 4 below)
Figure SEQ Figure * ARABIC 4: pulse diagram
However, Low, et al, (1994, pp, 637-645) in argues that, the RF (RF is the radio frequency pulse) which is a slice selective 90 degree pulse, is usually followed by either two or multiple 180 degree refocusing pulses. It is essential to note that the GS, GP, and GF are mainly slice selective, phase encoding, and the frequency encoding gradients, correspondingly. However, the echo in the diagram represents all the signals that are received from the actual slice succinct in the body. It is also advisable to note that if the TR and the TE are short, they will give a T1-weighted image (McRobbie, et al, 2004)
On the other hand, long TR and short TE are likely to give a proton density image. However, a long TR and TE give a T2-weighted image. These changes in the net magnetization are shown bellow as they occur for s spin echo sequence
Figure SEQ Figure * ARABIC 5: Typical T1’s, T2’s and ρ’s for Brain Tissues at 1.5 T
Selective irradiation is critical in reducing a three dimensional sample must be reduced into a one dimensional component. This is also referred to as slice selection. The effects are also felt as there is the need to saturate all the spins that are outside the actual area of interest (see below)
Then the unsaturated spins must also be tipped into another transverse plan by applying a gradient along an x-axis, then again along the y axis: The Fourier method is efficient for this as it helps in eliminating the limitation of fast imaging sequences like the EPI, especially when implementing and switching the gradients at a faster rate. This is achieved by use of spiral imaging as it covers the k-space. The spiral imaging is also useful for sampling the real center of K-space first and low spatial frequencies that are likely to affect the image (Lenz, 1994, p. 779).
Figure SEQ Figure * ARABIC 6: The pulse sequence diagram and coverage of k-space for spiral imaging
Bibliography
Avram et al., (2006). “Conjugation and Hybrid MR Imaging,” Radiology 189:891-895.D. W. McRobbie, E. A. Moore, M. J. Graves, M. R. Prince. (2003). MRI – From Picture to Proton. Cambridge University Press.Lenz, G.W., (1994). “Dual Contrast Turbose Sequence Optimized For Low Field Strength,” Medical Engineering Group, Siemens AG, Erlangen, Germany, SMRM, p. 779.
Low, et al., (1994). “Fast Spin-Echo MR Imaging Of The Abdomen: Contrast Optimization and Artifact Reduction,” SMR, vol. 4, No. 5, JMRI, pp. 637-645.
Vinitski, et al. (2003). “Conventional and Fast Spin-Echo MR Imaging: Minimizing Echo Time,” JMRI ; 3:501-511.
Physician-Assisted Suicide
Physician-Assisted Suicide
I don’t think that physicians have the power to dictate when to pull the plug on someone’s life. There are various reasons that explain this, and one of them is that they are not family members, and neither are they loved ones to the victim. I do believe that the family of the victim, especially the immediate family such as a husband, wife, or child of the victim, have the responsibility to decide if and when the plug should be pulled. Another reason why the physician should not dictate when to pull the plug on someone’s life is that they swore an oath to preserve and protect people’s and thus, they have no say in terminating people’s lives. Finally, the physician’s role in caregiving and not providing financial support to patients (Schulz et al., 2018). Therefore, they can only play an advisory role to the family of the victim to help them decide on whether they would like to continue or terminate the life of their loved one.
Physician-assisted suicide refers to suicide undertaken with the aid of a physician or other healthcare provider (Mukhopadhyay & Banerjee, 2021). Assisted suicide can be morally right or wrong depending on the viewpoint of an argument. For example, if a person is suffering from a chronic illness that presents them with untold pain and suffering, such as cancer, they might be going through hell, and no person has to undergo such an ordeal. Besides, cancer is a terminal illness and requires people to spend a lot of money on treatment, and this may contribute to leaving many people suffering from financial problems once their loved one is dead. Rather than facing a double-edged sword – the death of a loved one through so much pain and suffering as well as the loss of finances; it would be better if assisted suicide was conducted to save the family from trauma and save them from facing financial problems in future. Based on this perspective, assisted suicide can be termed as being morally right. However, in a religious perspective, only God has the power to take the life of another person, and therefore, assisted suicide can be considered as playing God, and this is against the sacred and a violation of the ten commandments – do not kill. Based on this perspective, performing assisted suicide is morally wrong (Cherry, 2018).
References
Cherry, M. J. (2018). Physician-assisted suicide and voluntary euthanasia: How not to die as a Christian. Christian Bioethics: Non-Ecumenical Studies in Medical Morality, 24(1), 1-16.
Mukhopadhyay, S., & Banerjee, D. (2021). Physician assisted suicide in dementia: A critical review of global evidence and considerations from India. Asian Journal of Psychiatry, 64, 102802.
Schulz, R., Beach, S. R., Friedman, E. M., Martsolf, G. R., Rodakowski, J., & James III, A. E. (2018). Changing structures and processes to support family caregivers of seriously ill patients. Journal of palliative medicine, 21(S2), S-36.