Essay on The Study of Human Race and Ethnicity - 2055 Words

Physical and Biological anthropologists have proven that human race indeed exists and is valid. Through modern bone analysis techniques like midfacial measurements and femur traits for example, we are now able to distinguish the biological background of different Homo sapiens. Forensic anthropologists identify human remains based on their race. Race is the key to science. The biggest misconception of race is racism. Race has become this controversial topic that is considered taboo in today’s society. Many argue that race is not in fact the way to defines human background/culture. The opposition claims that environmental adaptation is the number one reason for our appearance. Environment alone will not answer the question. Does†¦show more content†¦Many believe that environment causes or explains everything but it does not. Race exists, but the definition of race needs to be understood. Race does not exist in the same way as, â€Å"dog† and â€Å"cat † exists. Categorizing Black and White will not be referring to superior or inferior species. If you ask any scientist and corner them on the issue of race, then you’ll find that the correct definition of race is to think in terms of dog breeds, cat breeds, and horse breeds for example (White, Guy). To better understand this concept, human race can be compared to the different breeds of dogs. When you say we are â€Å"black† or â€Å"white†, you’re saying, we’re like â€Å"bull terriers† or â€Å"German Shepherds†. That is the correct, genetic and scientific perspective of race. But nobody will come out and tell you this. No one wants to compare humans to animals. Dogs can breed with other dogs, and when they do you get â€Å"mixed breeds†, which is the equivalent of â€Å"mixed race† in humans. Blacks and Whites can interbreed. We’re not separate species. We are of the same species, same blood ty pe, and same DNA sequence. It is just that we are different variations within the same species. The problem with race is that it is not as clear and as definitive and divided as species. Nature does not allow you to interbreed a cat and a dog. So it is a very pronounced and definitive concept whereas â€Å"breed† and â€Å"race† are more like a fashion. They are aShow MoreRelatedImportance Of Race Ethnicity : An Exploration Of Asian, Black, Latino, And Multiracial Adolescent Identity Essay1047 Words   |  5 PagesImportance of race-ethnicity: An exploration of Asian, Black, Latino, and Multiracial adolescent identity Article source- Charmaraman, L., Grossman, J. M. (2010, April). Importance of race-ethnicity: An exploration of Asian, Black, Latino, and Multiracial adolescent identity. Cultural Diversity and Ethnic Minority Psychology, 16(2), 144-151. doi: 10.1037/a0018668 (a) Contextual information about the purpose/intention of this study: Throughout the history of United States, race has been one ofRead MoreAnalysis Of Kenan Malik s The Meaning Of Race : Race, History And Culture906 Words   |  4 Pages The Meaning of Race: Race, History and Culture in Western Society, Paul Broca stated, â€Å"Race in the present state of things is an abstract conception.† He further stated that race is â€Å"a conception of continuity in discontinuity, of unity in diversity. It is the rehabilitation of a real but directly unobtainable thing.† Based on Broca’s statements, it is difficult to classify humans into racial categories because the definition of what makes a person a member of a particular race differs from regionRead MoreRace, Ethnicity, Art and Film Essay826 Words   |  4 Pagesanalyze race relations, ethnicity and how art and film relates to these social issues in their cultural context. Art and film have played vital roles in advocating for a society free of ethnicity and racism. Using vivid des criptions and evidence of both text and a movie this paper seeks to relate accordingly the concerned issues and factors affecting these social vices. It will demonstrate race and ethnic tendencies in diverse cultural contexts. As a demographic phenomenon, ethnicity is belongingRead MoreSociology in Everyday Life Essay911 Words   |  4 PagesSociology in Every Life One central and important study of sociology is the study of everyday social life. Everyday life and sociology are definitely two distinct terms and situations, but they hold a close relationship. While sociology studies human interaction, everyday life consists of everyday human interaction. Everyday life is filled by human beings interacting with one another, institutions, ideas, and emotions. Sociology studies the interactions with all of these and shows how mere interactionRead MoreHuman Diversity1292 Words   |  6 PagesHuman Diversity Human diversity is immense and rich with different varieties of people and cultures. With billions of people walking the earth today, there are thousands of different races, cultures, sub-cultures, values and religions. At times most were once separated by either vast bodies of water and land or borderlines drawn out by the many different kingdoms and civilizations. Over the centuries with great triumphs in human exploration, technologies and politics, people began to amalgamateRead MoreSociology Of Our Times By Diana Kendall And The Meaning Of Sociology By Charon And Vigilant1053 Words   |  5 Pagesreally focused on the chapter about race and ethnicity. The readings had two sections related to the same discussion, one about race, wealth and ethnicity and another about how children who are born immigrants having to learn how to adapt to their â€Å"normal† identity in society. Other topics of prejudice, discrimination, and sociological perspectives were interesting and help ed gain more knowledge about the chapter. In Sociology in Our Times, Kendall informs us about race and how it is defined in the worldRead MoreDebating Sex and Gender and After Identity1486 Words   |  6 PagesDr. Warnke presents various arguments that demonstrate how sex, gender, and race are all social constructs. Do you agree or disagree with her argument, and why? Concepts of sex, gender and race in English language have undergone uncountable naturalization and universalities, to a point that they are now considered to have always been present. There are numerous arguments that revolve around the three concepts of human diversity. Dr. Warnke for example argues that the three concepts above areRead MoreAffirmative Action : Discrimination And Discrimination910 Words   |  4 Pagesincluding race, color, national origin, gender, age, disability, religion and veteran status. Diversity can be defined in many ways, including diversity of thought, experiences, and backgrounds. Together, all three can contribute to a more welcoming. Affirmative action helps create a level playing field that gives everyone an equal opportunity to compete for a job and career. It ensures that no person is disadvantaged or treated unfairly during the hiring process because of their race, ethnicity or genderRead MoreDebating Sex and Gender and After Identity1479 Wo rds   |  6 Pages Warnke presents various arguments that demonstrate how sex, gender, and race are all social constructs. Do you agree or disagree with her argument, and why? Concepts of sex, gender and race in English language have undergone uncountable naturalization and universalities, to a point that they are now considered to have always been present. There are numerous arguments that revolve around the three concepts of human diversity. Dr. Warnke for example argues that the three concepts above areRead MoreThe Importance Of Racism1291 Words   |  6 Pagesfelt racism towards them, seen it directed towards others, or felt guilt regarding their race. Because race is easily identifiable, it becomes a calling card that weaves its way into a person’s identification. I am biracial and have been able to interpret how my skin color seems different between people of varying races. Many white people have seemed surprised after hearing my voice because they assumed my race would accompany a different tone. I have been on the outskirts of both black and white

Essay on Space Bubble - 620 Words

Violation of Space nbsp;nbsp;nbsp;nbsp;nbsp;On today’s episode of â€Å"Know Your Principles of Sociology,† the question is how important are the mundane rules of life? Our contestants in Dr. Marin’s class helped us out with finding the answer. To answer this they simply violated an unwritten social norm that people live by in our culture. They decided to violate the space theory. Weather it be to randomly hug people or sit extremely close to them, these brave young souls went to the farthest ends to observe and document the expressions of those being violated and those of others witnessing it. We now will go to one of the students to tell us about the experiment. nbsp;nbsp;nbsp;nbsp;nbsp;In article 14 of Cargan and Ballantine’s text†¦show more content†¦These are examples of space violations; and that is exactly what we did. nbsp;nbsp;nbsp;nbsp;nbsp; nbsp;nbsp;nbsp;nbsp;nbsp;We started by observing what happened when one of us went up to a stranger and sat abnormally close to them while they were studying at the library. We did this numerous times and with different genders of people to obtain different types of responses. The group and I went even further as to go up and hug random people. Needless to say that they were surprised and were left confused and uncomfortable. We did all of this while videotaping them so we could document the reactions of each. nbsp;nbsp;nbsp;nbsp;nbsp;For our results we saw that gender of the violator played a big variable in the response. When one of us guys went up to a girl they were either thought that they were being hit on and reacted to us with the approval or disapproval of a first impression, or they laughed and caught on to the fact that something was up. Either way they were left disturbed and uncomfortable. When guys went up and hugged other guys the reaction was one of complete disturbance. They did not know how to respond and did not like the idea of possibly being hit on by a homosexual. Similar reactions occurred when women went up to women, and when women went up to men. I might add that some of the guys liked the possibility of being hit on by a lady due to the fact that most of the time it is the other way around, but that isShow MoreRelatedQuantum Theory Of Time Essay1418 Words   |  6 Pagestakes places even at large macroscopic scales. TIME IN PHYSICS Today no scientist doubts the connectedness between bits of light or matter. 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FTIR Spectroscopy

Question: Describe FTIR and Raman spectroscopy. Explain why both the techniques are preferred to other characterisation techniques for analysis of Biomaterials. You are provided four different spectra. Interpret the spectra by identifying the key spectral peaks and describe in detail, how you have reached your conclusion in identifying the materials from the unknown spectra. Answer: Introduction FTIR Spectroscopy The endeavours of every absorption spectroscopy like ultraviolet-visible ("UV-Vis") spectroscopy, FTIR, etc. is to determine how efficiently a sample absorbs light at every wavelength (FTIR Applied to Biological Systems, 2007). The most common is the "Dispersive Spectroscopy" technique, this is to gleam a monochromatic light in the form of beams at a sample, then measure the amount of the light absorbed, and repeat this technique for different wavelength. Fourier transform (FTIR) spectroscopy is a less spontaneous way to get the same information. Instead of falling on a monochromatic beam at the sample, this technique falls a beam containing numerous number of frequencies of light at the same time, and measures the amount of the beam that is absorbed by the sample (Berthomieu and Hienerwadel, 2009). After that, the beam is changed and modified which have a different combination of frequencies, giving a second observation data. This process re-occurrs many times. Later, a computer compares all these data and conclude the value of absorption at each wavelength. The beam explained above is produced by initiating with alight source of broadbandthat is the one consists of the full spectrum of different wavelengths to be measured. The light falls into aMichelson interferometer, that comprises of a mirror and its movement is controlled by a motor (Snchez-de-la-Llave, 2009). Since this mirror moves, every beam of light with different waveleng th cyclically blocked and transmitted, then again blocked and transmitted, because ofwave interference, by the interferometer. Contrasting wavelengths are amended at different rates, to get the different spectrum of each beam that is emitted out of the interferometer. Computer processing is obligatory to get the desired result (light absorbed at each wavelength) from the raw data (light absorbed at each position of the mirror). The processing needs to be turned out to a common algorithm known as theFourier transform hence it is named "Fourier transform spectroscopy". The unprocessed or raw data are at times called an "interferogram" (Hanley, 2012). FTIR spectroscopygives alike, but opposite, information (Infrared Spectroscopy, 1968). FTIR spectra tells the composition of gases, liquids and solids. The most frequent use is in the detection of unknown sample and evidence of manufacture sample (outgoing or incoming). The information material is very precise in most of the cases, explaining fine differences between like materials or sample. FTIR is less time consuming and this property makes it useful, particularly in screening applications. The entire scope of FTIR applications is wide-ranging. Clinical applications of FTIR Clinical applications of FTIR include the Deformulation of rubbers, polymers, etc., throughout (TGA-IR) thermogravimetric infra-red or (GC-IR) gas chromatography infra-red examination, Quality confirmation of outgoing / incoming samples, Analysis of coatings and thin films, supervising the automotive emissions (NORRISH, 1960). FTIR is highly sensitive and fast method to attain spectrum of high quality, this spectroscopy provides superior signal to noise ratio as contrast to the other dispersive instrument, spectrum can be attained very rapidly and saves time, gases, liquids as well as solids can be examined with FTIR, no external calibration is needed and provides accurate results. It is a non-destructive spectroscopic technique, Inorganic compounds as well as organic compounds can be identified effortlessly using this technique, Mechanical breakdown is almost nil in this spectroscopy as compared to others as a mirror is the only part moving in FTIR. Instantaneous analysis can be mad e for various gaseous compounds, FTIR can recognize even contaminants with small concentrations, it generally takes about 1 to 2 seconds for scanning, with High resolution. Raman Spectroscopy After SirC. V. Raman, Raman spectroscopyis named. It is atechnique of spectroscopy that is used to examine the vibrational, rotational, and other modes with low-frequency in a system (Raman Spectroscopy, 2006).Raman spectroscopy is usually used in chemistry to give a fingerprint of molecules for its identification. It is based onRaman scattering, or inelastic scattering, generally from alaserin thevisible,near UV, or near IRrange, ofmonochromaticlight. The laser interacts with photons, molecular vibrations or other excitations in the system, which results in the shifting that is up or down on energy of the laser. The vibrational movement in the system can be identified by the shift in energy.Normally, a sample is elucidated through a laser beam. From the illuminated speck Electromagnetic emission is gathered by means of alens and transmitted all the way through a monochromatic. Expandable scattered rays at the wavelength equivalent to the laser column (Rayleigh scattering) is passed through a filter, whereas the rest of the accumulated light is disseminated on top of a detector by either a band pass filter or a notch filter (Chukov, 2012). The Raman Effect takes place after electromagnetic radiation interrupts on aparticleand intermingled with theelectronmass which can be polarized and thebondsof the particle is in the either phase (liquid, solid or gaseous) and the atmosphere in which the particle come across it. For the spontaneo us as well as the impulsive Raman effect, which is a type of rigid inelasticlight scattering, aphoton(electromagnetic waves of a definite wavelength) stimulates (work together with) the particle in whichever the position, Rovibronic Situation (least possible rotational in addition to the vibrational force level of the position electronic situation) or an Agitated Rovibronic Status. As a consequence, in the particle, in a professedvirtual vigor state,for a diminutive time period before a rigid and inelastically speckled photon shows result. The inelastically scattered photon which was found as a result and is emitted or scattered might be of any form, i.e. minor(Stokes)otherwise advanced (anti-Stokes) power than the received photon. Spontaneous as well as impulsive Raman scatteringis characteristically very feeble, and as a consequence the major complexity of Raman spectroscopy is straightening out the fragile inelastically scattered light from the concentrated Rayleigh scattered laser light. In the past, Ramanspectrometerswere used holographic gratingsas well as numerous scattering stages to attain an elevated degree of rejection of laser. Earlier,the choice of detectorswas photomultipliers that were used for dispersive Raman units, long acquisition times came out as a result. On the other hand, recent instrumentation commonly makes use ofa mark or edging filte rsintended for laser rejection along with spectrographs either axial transmissive (AT),FT (Fourier transform spectroscopybased) or CzernyTurner (CT) monochromator as well asCCDdetectors (Levi, Minghetti and Aloisi, 1998). Forms of Raman spectroscopy There are numerous highly developed form of Raman spectroscopy, together withsurface-enhanced Raman, tip-enhanced Raman, resonance Raman, polarized Raman, hyper Raman, transmission Raman, stimulated Raman (analogous tostimulated emission) and spatially offset Raman. In Raman scattering spectroscopy the out coming vibronic state of the particle has a different vibrational or rotationalthan in which the molecule was, initially, before colliding with the upcoming photon (in the form of electromagnetic radiation). The Raman effect is because of inelastic scattering as well as it should not be puzzled with emission (that includes fluorescenceorphosphorescence) in which a particle in an excited electronic state give off an energy in the form of photon and came back to the ground electronic state (Boter and Toet, 2010). If the concluding vibrational state of the particle is more energetic or vigorous than the initial state, the inelasticity of the scattered photon will be changed to a lower frequency to maintain the total energy of system balanced. This change in frequency is appointed as aStokes shift (Yang, Henderson and O'Donnell, 1993). If the last vibrational state energy is of a smaller amount than the initial state, then the inelastically of scattered photon will be changed or shifted to a frequency with higher value, and this is known as an anti-Stokes shift. Raman scattering is an example of inelastic scattering and Rayleigh scattering is an example of elastic scattering (Caronna, Natali and Cupane, 2005). Clinical applications of Raman spectroscopy Clinical applications of Raman spectroscopy include the Bio-compatibility, Drug/cell interactions, Metabolic accretions, Cell sorting, Disease diagnosis, Photodynamic therapy (PDT), Bone structure, characterization of bio-molecules, Single cell analysis, DNA/RNA analysis (Kashtan, 2006). Advantages include that it can be used with solids and liquids, not interfered by water, sample preparation is not needed, it is also non-destructive, highly specific for example a chemical fingerprint of a sample. Raman spectra are obtained quickly within seconds, samples can be examined through polymer packaging or glass, Raman scattered light can be transferred over long distances by optical fibers for remote analysis, even for very small volume Raman spectra can be used, Inorganic samples can be analyzed easily by this spectroscopy. Above applications of both the spectroscopy make them preferred over other spectroscopy for analysis of biomaterials. Solution Of Graphs Graph A Peak at the 1730.71 cm-1 interprets the absorption band of fatty acid ester. The band at 1597.33 cm-1 shows the C=N, NH2 groups in the compound, whereas the peak at 1446.67 cm-1 interprets the CH2 bending made of proteins and the lipids, it also shows protein peak in the sample. The peak at 1367.37 cm-1 demonstrates the C-O stretching, deformation of C-H and deformation of N-H. The peak at 1310.22 cm-1, proves the presence of amide III. The band at 1018.51 interprets the occurrence of ring structure in the sample. Peak at 750.69 cm-1 show out of plane bending of CH2, 6. Based on the above information it is concluded that, sample contains ring structure, C-H, C=N, NH2, C-O, and N-H groups, and the material is Polyurethane. Graph B Peak at the 1664.87 cm-1 shows the occurrence of amide I, C=O group of cytosine, uracil. The band at the 1549.73 cm-1 shows the amide II of proteins is present in sample material. Value 1417.38 cm-1 interprets the stretching of C-N, deformation of C-H and N-H group. Both the value that is 1264.34 cm-1 and 1107.04 cm-1 interprets the occurrence of ring structure. Band at 1243.5 cm-1 interprets the presence of asymmetric phosphate [PO2- (asym.)], amide III of collagen. Band at 875.54 shows the antisymmetric stretch vibration of choline group N+ (CH3) 3. The peak value at 484.09 cm-1 and 1023.19 cm-1 both shows the glycogen occurrence. Based on this interpretation the sample material is supposed to be the compound of hydroxyapatite and polymer. Graph C The peak at 1620.89 cm-1 shows the C=C pophyrin in the sample. Value of 1540.74 cm-1 shows the amide carbonyl group. The peak value at 1446.04 cm-1 interprets the CH2 bending made of proteins and lipids, and the CH2 deformation. Occurrence of ring structure is shown by the peak at 1263.94 cm-1 and the peak at 786.62 cm-1. The band at 1119.27 cm-1 and 868.54 cm-1 shows the C-C stretching. The above information suggested that sample material is Polyurethane of Raman. Graph D The peak value at 717.76 cm-1 shows the presence C-N group (membrane phospholipid head), and the lipids. The band at 583.20 cm-1 interprets the OH- group out of the plane, bending, free. The value 428.59 cm-1 suggested the symmetric stretching vibration of PO43- (phosphate of HA). On the basis of above information it is interpreted that sample D of Raman is bone. Recent Researches Recent Researches in Raman Spectroscopy In the Raman spectroscopy chemists glow a laser on a molecule that are in small group and then calculate the amount of light which bounced back. Thephotons that are the energy packetsfrom the source of light make the molecules vibrate as well as interact with the attachments that grip molecules collectively causing a change or shift into their frequencyit is the type of scattering which results or values is unique for every type of particle and therefore permits for the system or technique to be utilized as a means of classifying the types of molecule. Recent researches includes that with the help of Surface-Enhanced Raman Spectroscopy (SERS) weak Raman signals can be detected (Kudelski, 2006). One of the main benefits of Surface Enhanced Raman Spectroscopy is that it can be utilized to examine trace amounts of sample material though still having characteristics of non-destructive. It works also in ambient conditions; it has a wider range of wave number as well as it can be utilized in different fields from electrochemistry to materials sciences. Its shell or surface sensitivity makes it to be used for examining and analysis of organic systems including the biological systems. It is helpful also for a various real-life applications, for example, detecting warfare agents of chemicals. It has applications in medical field also that it is being utilized in biosensors to identify biological samples, even including those that are involved in Alzheimers disease as well as in cancer (Wood, 2012). It is also being capable to be used in fra ud detection. As an example, it identifies dyes in paintings, even at low concentrations and therefore helps to date them as well as it, therefore validate them. Pittcon in this year, the worlds biggest annual conference as well as an exhibition for laboratory science, takes place from the 6th-10th March in Atlanta, Georgia. With remarkable technical program, the occasion featured presentation more than 2000. Along with, topics that included the utilization of Surface Enhanced Raman Spectroscopy for detection of fragile raman signals. HORIBA has established a Raman spectroscopy system and designing as well as manufacturing them for more than four decades. Research of the capability of Raman spectroscopy for detection of oral cancer in surgical margins. The poor prediction of Oral Cavity Squamous Cell Carcinoma (OCSCC) patients is related with left over tumor even after surgery (Maund and Jefferies, 2015). Raman spectroscopy has the capability to present a purpose of intra-operative assessment of the surgical fringes. The aim was to be aware of the biased basis of Raman spectroscopy at a level of histologically. In whole, 127 false or pseudo-color images of Raman were produced from thin tissue sections that are unstained of 25 samples (14 healthy and 11 OCSCC) out of 10 patients. These descriptions were evidently related to the histopathological evaluation of the similar sections after eosin-staining and hematoxylin staining. In this manner, Raman spectra were explained as surrounding healthy tissue structure (i.e., connective tissue (CT), squamous epithelium, adipose tissue, gland, muscle, or nerve) or as Oral Cavity Squamous Cell Car cinoma (OCSCC). These explained that spectra were utilized as input for LDA (Linear Discriminant Analysis) models to differentiate between healthy tissue spectra and OCSCC spectra. A record was obtained with 632 healthy tissue spectra and 88 Oral Cavity Squamous Cell Carcinoma or OCSCC spectra. The Linear Discriminant Analysis or LDA models could differentiate spectra of OCSCC from the spectra of nerve, gland, connective tissue (CT), adipose tissue, muscle, and squamous epithelium in 97%, 94%, 93%, 100%, 100%, and 75%of the cases, respectively (CUI and JI, 2009). More particularly, the composition and structure that were most frequently confused with OCSCC or Oral Cavity Squamous Cell Carcinoma were basal layers of epithelium, dysplastic epithelium, connective tissue close to OCSCC, inflammation- and capillary-rich CT, and glandular tissue that is close to OCSCC (Cuneo and Castoldi, 2011). Studies show that how well Raman spectroscopy facilitates comparison between adjoining healthy tissue and OCSCC structures. This information supports the growth of strong and trustworthy classification algorithms for an upcoming performance of Raman spectroscopy in clinical practice. Recent Researches in FTIR Spectroscopy The research in this field is that the gas sensors with Ultra-sensitive fiber-optic are improved by metal and organic materials (Rao, Zhu and Mo, 2006). Most industrial mid-IR (2.510m wavelength) has technologies of gas-sensing that is based on a counter or bench top Fourier-transform IR (FTIR) gas cells and spectrometers. These instruments are large and costly, therefore making them inappropriate for portable or applications of distributed sensing. The telecommunication optical industry has, though, built up minuscule near-IR (NIR, having wavelength 0.82.0m) optoelectronic devices and the optical fibers that are highly and have low cost (An ultrathin film as near-perfect IR absorber, 2013). This has lead to a significant increase of the rate in the progress of NIR sensors. The major confront lies in the reality that maximum number of gases do not have NIR regions with basic vibration bands. Thus the absorption necessarily comes from the association of the number of fundamental bands of vibration, therefore resulting in comparatively lower sensitivity of detection. FTIR (Fourier transform infrared spectrometer) meets fire testing requirements for analysis of toxicity of gas. One of the main dangerous parts of a fire is the gases that are toxic in nature that can occur from the combustion process. To keep life, save and build up safer objects for trains, airplanes, and buildings, it is important to discover and evaluate the gases that are discharged when materials and products are burning. Landmark systems of FTIR microscopy get significant developments. Agilent Technologies, Incorporationinitiated considerable enhancements to itsFourier transform infrared spectrometer (FTIR) Cary 610 and 620 microscopes. These revolutionary Fourier transform infrared spectrometer microscopy systems are proposed for eventual performance, contributing the major field of observation at the maximum spatial resolution in the such a small period of time. The instrument is deliberated for use in a vast range of functions and applications, that includes biomedical materials, food, polymers, forensics, chemical and pharmaceutical. Single detection of molecule of explosives, contaminants or diseases is now possible (Ishii and Yanagida, 2000). A procedure to merge the ultra sensitivity of shell or surface enhanced Raman scattering (SERS) having a slippery surface originated by researchers of Penn State will make it possible to sense single molecules of various numbers of biological and chemical species from solid, liquid or gas samples. This grouping of laser-based spectroscopy and slippery surface will unlock new applications in analytical molecular diagnostics, chemistry, national security and environmental monitoring. Conclusion FTIR and Raman Spectroscopy has various advantages. It is easy to identify the biomaterial using these techniques as they are fast, can identify even small concentration of samples and also it is helpful in detecting the contaminants in the sample. There is a vast scope of both the spectroscopy, as in recent researches it is proved that how it helps in a number of fields that include medical, chemical, pharmacy, engineering, geology. With the help of these techniques it is even possible to detect the differences caused by diseases. Number of researches are still in progress to find the new aspects of FTIR and the Raman spectroscopy. The future of FTIR and Raman Spectroscopy is wide in relation to the biomaterials. As various syndromes can be identified by these techniques. References An ultrathin film as near-perfect IR absorber. (2013). Phys. Today. Berthomieu, C. and Hienerwadel, R. (2009). Fourier transform infrared (FTIR) spectroscopy.Photosynth Res, 101(2-3), pp.157-170. Boter, H. and Toet, H. (2010). Organophosphorus compounds I: The preparation of some aryl phosph(orothiol)ates and aryl phosphon(othiol)ates. Recl. Trav. Chim. Pays-Bas, 84(10), pp.1279-1283. Caronna, C., Natali, F. and Cupane, A. (2005). Incoherent elastic and quasi-elastic neutron scattering investigation of hemoglobin dynamics. Biophysical Chemistry, 116(3), pp.219-225. Chukov, V. (2012). 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