Riordan Manufacturing Supply Chain Design Essay Example for Free

Riordan Manufacturing Supply Chain Design Essay A supply chain is the process of moving information and material to and from the manufacturing and service processes of a firm (Jacobs Chase, 2011). Two components encompass the focus of the supply chain: the production, planning, and inventory control process and the distribution process. The supply chain is part of daily business operations and directly affects productivity, efficiency, and financial profitability. Proper management of the supply chain ensures a business delivers quality, cost-efficient products to customers while remaining competitive in today’s global market. Team B provides a review of Riordan Manufacturing’s (RM) production strategy and describes supplier relationships and how they affect the supply chain. Finally, Team B explores how lean production principles and inventory requirements can be used to determine appropriate supply chain processes. Electric Fan Manufacturing Strategy RM uses the level production planning strategy of maintaining a stable workforce to produce electric fans at a constant output rate (Jacobs Chase, 2011). Shortages and surpluses are absorbed with inventory levels, order backlogs, and potential lost sales (Jacobs Chase, 2011). Employees benefit from stable work hours at the cost of increased inventory levels, increased potential of lost sales, risk of obsolete products, and decreased customer service (Jacobs Chase, 2011). Electric Fan Supply Chain RM’s supply chain process flow in Figure 1 provides raw materials to the manufacturing plant and warehouse at the input end and the supply of  completed plastic fans to the customer on the output end of the supply chain (Jacobs Chase, 2011). The supply chain for the individual manufacturing processes is detailed in Figure 2. Figure 1 Riordan Manufacturing Supply Chain Figure 2 Manufacturing Department Supply Chain Process Supplier Relationships and the Supply Chain RM uses vertical integration as the framework for structuring supplier relationships. A vertically integrated process allows RM to control supply chain activities. Strategic activities are a key source of competitive advantage. Instead of outsourcing non-core activities and maintaining only core competencies under management control, RM evaluates each activity using required coordination (the difficulty of ensuring how well activities integrate with the process), strategic control (degree of loss that would result if supplier relationship were severed), and intellectual property techniques (Jacobs Chase, 2011). Other types of losses important to consider include specialized facilities, knowledge of major customer relationships, and investment in research and development (Jacobs Chase, 2011). RM does not outsource activities requiring frequent information exchange but instead outsource highly standardized, well understood, and easily transferrable activities to specialized business partners. Such strategic planning led to RM offshoring their entire fan operation from Pontiac, Michigan, to Hangzhou, China in 2000. This decision allowed RM to operate in a more feasible location, expand exponentially, and maintain financial stability (Jacobs Chase, 2011). Electric Fan Supply Chain Metrics A performance measurement system is vital for businesses to operate efficiently and effectively. According to Jacobs and Chase (2011), â€Å"process performance metrics give the operations manager a gauge on how productively a process currently is operating and how productivity is changing over time† (p. 116). Two metrics used to evaluate the performance of the RM’s electric  fan supply chain are utilization and productivity. Utilization measures the rate at which resources are used compared to time available for use by calculating time activated divided by time available (Jacobs Chase, 2011). Productivity metrics determine the amount of output per unit of time by calculating output divided by input (Jacobs Chase, 2011). Metrics used by consumers to measure supplier performance are also the strategies suppliers use to improve their services. Examples of metrics include improved quality through lower product defects, cost-efficiency, timely delivery, and shorter order fill time. Globalized businesses must not only have capable supply chain partners that support global market initiatives but also have the capability to lower supply chain costs (Handfield, 2012). Lean Production Principles RM can adopt Toyota’s lean principles by using the just-in-time inventory approach that emphasizes elimination of waste (Jacobs Chase, 2011). The lean process is essential for inventory management to reduce manufacturing cost and increase productivity. Inventory is controlled using the lean principles by eliminating extra processes and ordering supplies just-in-time based on value streaming. Value streaming involves understanding â€Å"the value-adding and non-value-adding activities required to design, order, and provide a product or service from concept to launch, order to delivery, and raw materials to customers† (Jacobs Chase, 2011, p. 421). RM’s electric fan production system uses a push system for input from a number of specialized departments such as receiving, molding, trimming, and assembly. Implementing a pull system for its production process helps master the lean production principles through more efficient inventory management and shorter lead time by focusing on building what customers want, when they want it versus producing too many goods that sit in inventory or become obsolete (Turner, 2013). Sales Forecast Forecasting sales provides necessary information to determine inventory needs, production plans, and resource needs to create customer value. Sophisticated statistical analysis, cyclical and seasonal factors, and historical data are important factors in creating a sales forecast for RM. Forecasting Technique Forecasting techniques can be subdivided into two major groups: qualitative and quantitative. Qualitative techniques use subjective data that is difficult to represent numerically. It is based on the opinion and judgment of key persons, specialists in products and markets. Quantitative techniques involve numerical analysis of past data unbiased by personal opinions or judgment. This technique employs mathematical models to project future demand. Quantitative forecasting is subdivided into two major groups: time series techniques and causal techniques. RM forecasts future sales based on an average of the previous three years production with the idea that history repeats itself. A quantitative forecasting using the time series technique results in the forecast in table 1. This demand forecast provides information management needs to make decisions on production planning, inventory, and marketing activities. Electric Fan Production Planning Aggregate Production Plan RM’s electric fan aggregate production plan in Table 2 specifies the optimal combination of fan production rate, workforce level, and inventory on hand to minimize the total production-related costs over the planning horizon (Jacobs Chase, 2011). Because RM uses the level production planning strategy, inventory is a cost of business that RM accepts. RM will continue to employ a stable workforce at the cost of inventory. This results in level production of 96K units per month. Fluctuations in demand shown in Figure 3 are absorbed by inventory levels, order backlogs, and potentially lost business (Jacobs Chase, 2011). Figure 3 Riordan Manufacturing Electric Fan Demand and Production Master Production Schedule RM’s master production schedule in Table 3 is the time-phased plan specifying how many and when RM plans to build each electric fan model. Materials Requirements Plan Materials requirements planning (MRP) is essential to manufacturing organizations for calculating and maintaining optimum inventory levels to meet production requirements. Material requirements planning (MRP) is a computer-based inventory management system designed to assist production managers in scheduling and placing orders for dependent demand items. Dependent demand items are components of finished goods—such as raw materials, component parts, and subassemblies—for which the amount of inventory needed depends on the level of production of the final product (Reference for Business, 2nd ed., 2013). A proper MRP puts the organization in a proactive position rather than reactive. MRP assists in reducing inventory levels and component shortages and ensures the right materials are in the right place at the right time, which increases productivity. Other benefits include improved plant efficiency, reduced overtime, higher production quality, and less scrap and rework. RM uses MRP to optimize production based on forecasted sales. Table 4 provides a forecast of finished goods inventory based on the forecasted demand. With this data the  organization can forecast and plan for future production requirements and use materials requirement planning to coordinate accurately inventory, shipping, and production. Riordan Manufacturing uses a fixed order system or meeting its materials requirement needs. They procure the assembled motors for the fans from local manufacturers in quantities adequate to meet its order requirements. They also purchase the plants plastic polymer requirements from local suppliers. To assure consistent operations and quality control, Riordan manufacturing has a set of procedures developed for the management of receiving raw materials, tracking products during manufacturing, accounting for the finished goods inv entories. Conclusion The supply chain is an integral part of an organization’s manufacturing process. A successful supply chain is able manage production costs, increase efficiency and effectiveness, and control inventory flow while averting financial impacts from unexpected supply chain disruptions. Last, an effective supply chain is easily integrated into a business’s production planning, scheduling, and forecasting strategies to achieve maximum results. Reference Handfield, R. (2012). Supplier Development Strategies and Outcomes. Retrieved from http://scm.ncsu.edu/scm-articles/article/supplier-development-strategies-and-outcomes Jacobs, F. R., Chase, R. B. (2011). Operations and Supply Chain Management (13th ed.). New York, NY: McGraw-Hill Irwin. Reference for Business, Encyclopedia of Business, 2nd ed. (2013). Materials Requirement Planning. Retrieved from http://www.referenceforbusiness.com/small/Mail-Op/Material-Requirements-Planning-MRP.html Turner, C. (2013). Pull System. Retrieved from http://leanmanufacturingcoach.com/pullsystem.htm

The Rage of Hamlet in Shakespeares Hamlet Essay example -- essays res

In William Shakespeare’s play â€Å"The Tragedy of Hamlet, Prince of Denmark†, though the protagonist Hamlet pretends to be mad as he seeks revenge for the murder of his father, he is suffering from depression and a barely contained rage towards the people closest to him as revealed in his treatment of Gertrude and Ophelia, Rosencrantz and Guildenstern, and Polonius and Claudius. The barely concealed rage he feels towards his mother, lover, friends and uncle leads to their death and his own. This bitterness towards everyone makes his conversations with other characters seem to be very cold, especially towards his mother, Gertrude, and Ophelia. Hamlet’s behavior towards Ophelia and Gertrude shows his contempt and distrust of women. Though Hamlet loves his mother, â€Å"O heart, lose not thy nature† (1363), he is wounded and flabbergasted by her hasty marriage. He says, â€Å"Frailty, thy name is woman†, meaning that he views women as morally weak creatures (1316). His inference of innate womanly weakness is exemplified in Ophelia. When she follows her father’s instructions to not â€Å"give words...

Diagnostic Urinalysis Lab Essay

Introduction/Background Today’s lab exercise is about diagnostic Urinalysis. Urine reflects the many chemical components found in blood. This test is a good measure of health of endocrine system, kidneys, and urinary tract. Artificial urine samples are used for today’s lab thank goodness. The test that this lab is mostly focused on is called â€Å"dipstick† urinalysis test where students will analyze the chemical composition of urine by dipping the chemical indicator stick or â€Å"dispstick† into a sample of urine. The chemicals in the pad of the indicator stick will react with various biochemicals, ions and salts found in urine and indicate the presence of hemoglobin, glucose, ketones, protein and specific gravity. The change in color indicates the quantity and presence of particular urine component. High level of glucose indicates the endocrine system’s inability to regulate sugar concentration. Dilute urine indicates the adrenal gland defect that prevents kidney from r egulating water and salt levels. Urine containing blood and protein indicates damage to a Kidney’s blood filtering system. Hypothesis: No hypothesis is necessary as this lab is an observational lab Objectives: The objective of today’s lab is to learn and understand diagnostic urinalysis. The focus of today’s lab is geared more towards dipstick analysis. Students are to complete the chart, answer all associated questions, and include references. Students will learn the importance of urine and the various diseases/problems that can be diagnosed using it. Students will diagnose the unknown samples of â€Å"Jane and John†. Materials: 1. Acetoacetic acid 2. Creatinine 3. Urine test strips – multisticks that can measure blood, glucose, ketones, pH and protein are required and should be also able to measure specific gravity – are needed. Brand recommended is Clinistick TM . 4. Five test tubes per group Procedure 1 (Calibration) Calibration This is to ensure that the data collected from the patient is accurate. You will be provided with the positive and negative standard solution. The Positive Standard determines whether the indicator determines the correct response to presence of chemicals in the urine. A false positive when using water will indicate that the â€Å"stick† is detecting substances that are not there. A false negative indicates that the stick is unable to detect the presence of substances that are present in the sample. 1. Obtain the negative and positive standard bottles. Note the color on the indicator stick prior to start of experiment. 2. Collect 2 tubes and label as â€Å"neg† and â€Å"pos† for negative and positive standard solution. 3. Pour  ¾ full of the tube with â€Å"neg† solutions in the tube labeled â€Å"neg.† 4. Pour  ¾ full of the tube with â€Å"pos† solutions in the tube labeled â€Å"pos.† 5. Insert the indicator stick in the tube la beled â€Å"neg.† Observe the color and odor of the solution. 6. Insert the indicator stick in the tube labeled â€Å"pos.† Observe the color and odor of the solution. 7. Record your data in the table as â€Å"+† or â€Å" –â€Å" to indicate positive or negative result. Procedure 2 (analysis of samples) Obtain a set of the urine samples to analyze. 1. Collect and label three tubes as normal (N), John , and Jane. 2. Pour Normal urine sample  ¾ full of the tube labeled N 3. Pour John’s urine sample  ¾ full of the tube labeled John 4. Pour Jane’s urine sample  ¾ full of the tube labeled Jane 5. Insert the indicator stick in the tube labeled N. Observe the color and odor of the solution. 6. Record the data 7. Perform the same test on the samples labeled John and Jane using new sticks and record your observation in the table provided above. Please refer to the attachment for interpretation of Urinalysis results. If not provided please ask your Instructor for the same. Discussion: This lab discussed urinalysis. Urinalysis is a diagnostic test that evaluates health of endocrine system, kidneys, and urinary tract. Urine can be visually examined sample for color (clear to dark yellow or red), and clarity (clear to cloudy), and odor. A complete diagnostic urinalysis includes a dipstick evaluation and a microscopic analysis. Dipstick evaluation includes parameters such as glucose, ketones, pH, protein, blood, bilirubin, etc. The microscopic visualization allows for detection of bacteria (UTI), RBCs, crystals (metabolic derangements), renal tubular cells (toxicity or severe renal disease), or transitional cells (from bladder). Acid urine and alkaline urine have crystals that form different from that of normal urine. Some terms that the students learned were glycosuria-excess glucose levels, hematuria-RBCs present in urine, hemaglobinuria-hemoglobin pigment is present in urine, ketonuria-high levels of ketones, myoglobinuria-high levels of myglobin (pigments that are released when muscles breakdown), and pH-measure acidity or alkalinity of urine. In order to be certain that values are correct, known negative and positive standards are used to compare with the clinical sample. This process is called calibration. Calibration should be done for all diagnostic tests and the equipment used to make these determinations. Calibration is necessary to avoid false negative and false positives. A false positive when using water will indicate that the â€Å"stick† is detecting substances that are not there. A  false negative indicates that the stick is unable to detect the presence of substances that are present in the sample. Conclusion: In conclusion, students successfully performed a urinalysis dipstick test. The lab had students test the negative and positive tests, and then the James and Jane urine samples were tested. John’s urine was clear and tested negative for protein, which indicated it was normal. The pee was slightly turbid. The urine had a strong odor and a specific gravity of 1.005, which is lower than normal urine. The pH of John’s pee is 5 and the glucose was extremely high with 1000mg, tested with small (+) amounts of ketones and also showed trace amounts of blood. Jane’s urine was a very light yellow with a very faint odor, tested negative for ketones, tested negative for proteins, had a pH of 6, and had a specific gravity of 1.015. The glucose was extremely high with 1000mg. Jane also showed About 250 Ery/nanoliters of blood in her urine. The protein portion of the dipstick tested for 100 (++) in Jane’s urine sample. Students learned different types of disease that could be associated with the test results that were discovered with the dipstick. Lab Questions: 1. What are the possible causes of John’s test results? John’s urine was clear and tested negative for protein, which indicated it was normal. The pee was slightly turbid which could be caused by Lipiduria, hyperoxaluria, chyluria, pyuria, excess phosphate crystals precipitating in alkaline urine, hyperuricosuria, or contamination with vaginal mucus or epithelial cells. The urine had a strong odor which could indicate alkaline fermentation, diabetic ketoacidosis, cysteine decomposition, gastrointestinal-bladder fistulae, or could be caused by medications or diet. John’s urine was observed to have a specific gravity of 1.005, which is lower than normal urine. Decreased specific gravity is seen in excessive fluid intake, renal failure, pyelonephritis, and central and nephrogenic diabetes insipidus. False low readings of specific gravity are associated with alkaline urine (a high-citrate diet). The pH of John’s pee is 5, which is considered to be within the normal range, but it is on the lower end which could be caused by diet and uric acid calculi. The glucose was extremely high with 1000mg, which is extremely strange due to that fact that  nearly all glucose filtered by the glomeruli is reabsorbed in the proximal tubules and only undetectable amounts appear in urine in healthy patients. False positive results are seen when high levels of ketones are present and also in patient taking levodopa. Something to remember about dipstick tests is that reagent strip tests are specific for glucose. John’s sample tested with small (+) amounts of ketones. A positive test, since ketones are not normally found in urine, is associated with uncontrolled diabetes, pregnancy without diabetes, carbohydrate-free diets, and starvation. False trace results may be seen in highly pigmented urine and in patiens taking levodopa. John’s urine also showed trace amounts of blood. 2. Of the diseases mentioned, what disease might John have? Of the diseases mentioned, it is believed that John might have either diabetes mellitus or a renal impairment. 3. How did you come to this conclusion about John’s condition? The conclusion was made that John might have diabetes mellitus, due to the high levels of glucose, slightly lower pH, and traces of ketones. The decreased level of specific gravity, and traces of blood lead to the belief that John may have a renal impairment. 4. What are the possible causes of Jane’s test results? Jane’s urine was a very light yellow with a very faint odor, tested negative for ketones, tested negative for proteins, had a pH of 6, and had a specific gravity of 1.015. All of these characteristics do not indicate abnormalities with Jane’s pee. The glucose was extremely high with 1000mg. False positive results are seen when high levels of ketones are present and also in patient taking levodopa. Something to remember about dipstick tests is that reagent strip tests are specific for glucose. Jane also showed About 250 Ery/nanoliters of blood in her urine. This could indicate lower urinary tract bleeding and inflammation/infection, acute glomerulonephritis, or lupus nephritis. The protein portion of the dipstick tested for 100 (++) in Jane’s urine sample. Proteinuria is indicative of renal disease, and small amounts accompany hematuria and acute urinary tract infection. 5. Of the diseases mentioned, what disease might Jane have? Of the diseases mentioned, Jane might have an acute urinary tract  infection/inflammation, or renal disease. 6. How did you come to this conclusion about Jane’s condition? The conclusion about renal disease is because proteinuria is indicative of renal disease. Jane might instead have an acute urinary tract infection/inflammation due to not only the protein in her urine but also the blood in the urine. 7. Why is Urine useful as an indicator of the endocrine and kidney disease? Urine is as an indicator of the endocrine and kidney disease because through its protein, pH, glucose, ketones, specific gravity, and blood that can possibly be found, physicians can diagnose disease. Urine indicates diseases with the kidney because the kidney is what filters out the body fluids that become the urine. 8. What is the laboratory procedure that can be used to test the presence of certain specific biochemicals in urine? The laboratory procedures that can be used to test the presence of certain specific biochemical in urine could be microscopic analysis, or even a urine electrophoresis test 9. Which blood chemical will be found in high levels in patients diagnosed with untreated diabetes mellitus? The chemical that will be found in high levels in the blood of patients diagnosed with untreated diabetes mellitus would be glucose. 10. How does odor help in diagnosis of disease? Odor of urine helps in diagnosing disease by merely alerting the patient that something is wrong. Because urine doesn’t have a very strong smell, if a whiff of something is particularly pungent when peeing, it may indicate that the patient could have an infection or urinary stones, which can create an ammonia-like odor. Diabetics might notice that their urine smells sweet because of excess sugar. Alkaline fermentation causes an ammoniacal smell, and patients with diabetic ketoacidosis produce a urine that may have a sweet or fruity odour. Other causes of abnormal odours are cystine decomposition (a sulphuric smell), gastrointestinal-bladder fistulae (a faecal smell), medications (eg, vitamin B6), and diet (eg, asparagus). 11. Define the following terms associated with urinalysis: Glycosuria: Glucose normally is filtered by the glomerulus, but it is almost completely reabsorbed in the proximal tubule. Glycosuria occurs when the filtered load of glucose exceeds the ability of the tubule to reabsorb it (i.e., 180 to 200 mg per dL). Etiologies include diabetes mellitus,  Cushing’s syndrome, liver and pancreatic disease, and Fanconi’s syndrome. Ketonuria: Ketones, products of body fat metabolism, normally are not found in urine. Dipstick reagents detect acetic acid through a reaction with sodium nitroprusside or nitro-ferricyanide and glycine. Ketonuria most commonly is associated with uncontrolled diabetes, but it also can occur during pregnancy, carbohydrate-free diets, and starvation. Hematuria: Hematuria can be glomerular, renal, urologic, and exercise-induced. Urologic causes of hematuria include tumors, calculi, and infections. Urologic hematuria is distinguished from other etiologies by the absence of proteinuria, dysmorphic RBCs, and erythr ocyte casts. Even significant hematuria will not elevate the protein concentration to the 2+ to 3+ range on the dipstick test. (23) Up to 20 percent of patients with gross hematuria have urinary tract malignancy; a full work-up with cystoscopy and upper-tract imaging is indicated in patients with this condition. (24) In patients with asymptomatic microscopic hematuria (without proteinuria or pyuria), 5 to 22 percent have serious urologic disease, and 0.5 to 5 percent have a genitourinary malignancy. pH: Urinary pH can range from 4.5 to 8 but normally is slightly acidic (i.e., 5.5 to 6.5) because of metabolic activity. Ingestion of proteins and acidic fruits (e.g., cranberries) can cause acidic urine, and diets high in citrate can cause alkaline urine. (15-17) Urinary pH generally reflects the serum pH, except in patients with renal tubular acidosis (RTA). The inability to acidify urine to a pH of less than 5.5 despite an overnight fast and administration of an acid load is the hallmark of RTA. In type I (distal) RTA, the serum is acidic but the urine is alkaline, secondary to an inability to secrete protons into the urine. Type II (proximal) RTA is characterized by an inability to reabsorb bicarbonate. This situation initially results in alkaline urine, but as the filtered load of bicarbonate decreases, the urine becomes more acidic. Determination of urinary pH is useful in the diagnosis and management of UTIs and calculi. Alkaline urine in a patient with a UTI suggests the presence of a urea-splitting organism, which may be associated with magnesium-ammonium phosphate crystals and can form staghorn calculi. Uric acid calculi are associated with acidic urine. Hemoglobin: The presence of free hemoglobin in the urine, an abnormal finding, that may make the urine look dark. Hemoglobin in the urine is termed hemoglobinuria. Hemoglobin is  the protein in the red blood cells which carries oxygen from the lungs to the tissues of the body and returns carbon dioxide from the tissues to the lungs. The iron contained in hemoglobin gives red blood cells their characteristic color. Red blood cells are normally taken out of circulation after approximately 4 months; they are trapped and disassembled in the spleen, bone marrow, and liver. If, however, red cells hemolyze (break down) within the vascular system, the components are set free in the blood stream. Free hemoglobin is bound by haptoglobin (another protein) and reprocessed. But if the level of hemoglobin in the blood rises above the ability of haptoglobin to reclaim it, hemoglobin begins to appear in the urine — there is hemoglobinuria. Hemoglobinuria is a sign of a number of conditions including: acute nephritis, burns, kidney cancer, malaria, sickle cell anemia, a transfusion reaction, tuberculosis of the urinary tract, and many other conditions. References: Benejam R, Narayana AS. Urinalysis: the physician’s responsibility. Am Fam Physician 1985;31:103-11. Brendler, CB. Evaluation of the urologic patient: history, physical exami-nation and urinalysis. In: Campbell MF, Walsh PC. Campbell’s Urology. 7th ed. Philadelphia: Saunders, 1998:144-56. Fogazzi GB, Garigali G. The clinical art and science of urine microscopy. Curr Opin Nephrol Hypertens 2003;12:625- 32. Hanno PM, Wein AJ, Malkowicz SB. Clinical manual of urology. 3d ed. New York: McGraw-Hill, 2001. Kiel DP, Moskowitz MA. The urinalysis: a critical appraisal. Med Clin North Am 1987;71:607-24. Laboratory manual for physiology, 2005. Leman P. Validity of urinalysis and microscopy for detecting urinary tract infection in the emergency department. Eur J Emerg Med 2002;9:141-7. Rabinovitch A. Urinalysis and collection, transportation, and preservation of urine specimens: approved guideline. 2d ed. Wayne, Pa.: National Committee for Clinical Laboratory Standards, 2001. NCCLS document GP16-A2. Sheets C, Lyman JL. Urinalysis. Emerg Med Clin North Am 1986;4: 263-80. Van Nostrand JD, Junkins AD, Bartholdi RK. Poor predictive ability of urinalysis and microscopic examination to detect urinary tract infection. Am J Clin Pathol 2000;113:709-13.

The Works Of Francisco Pena Perez - 1969 Words

Francisco Peà ±a Pà ©rez, or popularly known as Paco Peà ±a, is a 73-year-old Spanish guitarist, composer, producer and innovator of Flamenco. He was born in Andalucian city of Cordoba on June 1st, 1942 and has started learning how to play the guitar from his brother at the age of 6. At the age of 12, he experienced his first professional performance. He performed throughout Spain in his early age and decided to move to London in 1960s to pursue his career abroad. According to Woodall (n.d.), â€Å" since then, his reputation as a refined interpreter of traditional flamenco-guitar forms has remained unequalled†. He was able to do solo performances in well-known and huge stadiums such as Monumental Royal Albert Hall in London, New York’s Carnegie Hall†¦show more content†¦So until Charles III gave them the citizenship, they had a very challenging life and that is reflected in Flamenco. Katz stated, they developed a song repertory of a special character, the e ssence of which, rooted in poverty, expressed the plight of their existence and gave impetus to poetic and musical forms that had become prominent around the mid-18th century. (n.d.) As the gypsies continued to settle in and live freely, flamenco became a significant musical genre in Andalucia and it became well-known for entertainment in the cafà ©s cantates (singing cabarets) built in different cities. Flamenco became more and more popular as generations go by, until even the non-gypsies perform this musical genre as well. Flamenco has genuineness in its style of music. Manuel stated, flamenco songs typically alternate verses with a catchy, singable refrain and pre-arranged instrumental interludes. The latter generally foreground guitar, but the accompaniment as a whole often includes bass, percussion, and perhaps other instruments. (2010, p. 115) There are three main types that are presented in the scales used in flamenco. First is the Medieval Phrygian or is also called as Greek Dorian. Phrygian is diatonic according to Johnson (1993), which means Phrygian has a seven note scale that has an octave span filled by 5 tones or 2 semitones (Drabkin, n.d.). The second type is a modified scale resembling the Arab maqam Hijazi and the third type is a bimodal configuration alternatingShow MoreRelatedIntroduction to Rizal Course11998 Words   |  48 Pageshacienda which those time large portion of the town were owned by Dominican friars. Rizal’s great grandfather was Francisco Mercado, the son of Domingo and Ines dela Rosa, who married a Chinese mestiza Cirila Bernacha, had a son by the name of Juan Mercado, who married a Chinese mestiza Cirila Alejandrino, serving as Riza’s grandfather. Juan and Cirila had 14 children, one of whom was Francisco Mercado, Rizal’s father who married Teodora Alonzo. Rizal’ s father was an erudite man. He took courses in LatinRead MoreThe Philippine National Police8266 Words   |  34 Pagesmandated by law. Vision The Men and Women of the PNP are committed to a vision of a professional, dynamic and highly motivated Philippine National Police working in partnership with a responsive community towards the attainment of a safe place to live, work, invest and do business with. Mission To enforce the law, to prevent and control crimes, to maintain peace and order, and to ensure public safety and internal security with the active support of the community. Functions 1. Law Enforcement. 2Read MoreProject Managment Case Studies214937 Words   |  860 Pagesmethodology based on five life-cycle phases. Both methodologies had advantages and disadvantages, and both were well liked by their customers. LAKES AUTOMOTIVE QUESTIONS 1. How do companies combine methodologies? 2. How do you get employees to change work habits that have proven to be successful? 3. What influence should a customer have in redesigning a methodology that has proven to be successful? 4. What if the customers want the existing methodologies left intact? 5. What if the customers are unhappy