Data Science and Big Data Analysis - Programming
Review Bernard Marrs talk on Big Data, Best Practices, Challenges, & Mistakes located in the Week Two Content Folder.(a) Very briefly summarize the authors perspective on the significance to business benefits of utilizing big data.(b) Review your app usage from your mobile device this week. Summarize (in general terms) some of the kinds of data you might have generated.(c) Provide your perspective on how data you generated may be useful to a third party for data analytics used for business purposes. Reminders:Use your own words.Reference and cite (per APA) as appropriate.When in discussion with your colleagues, add new content to the conversation. data_science_and_big_data_analy_nieizv_book.pdf Unformatted Attachment Preview Table of Contents 1. Introduction 1. EMC Academic Alliance 2. EMC Proven Professional Certification 2. Chapter 1: Introduction to Big Data Analytics 1. 1.1 Big Data Overview 2. 1.2 State of the Practice in Analytics 3. 1.3 Key Roles for the New Big Data Ecosystem 4. 1.4 Examples of Big Data Analytics 5. Summary 6. Exercises 7. Bibliography 3. Chapter 2: Data Analytics Lifecycle 1. 2.1 Data Analytics Lifecycle Overview 2. 2.2 Phase 1: Discovery 3. 2.3 Phase 2: Data Preparation 4. 2.4 Phase 3: Model Planning 5. 2.5 Phase 4: Model Building 6. 2.6 Phase 5: Communicate Results 7. 2.7 Phase 6: Operationalize 8. 2.8 Case Study: Global Innovation Network and Analysis (GINA) 9. Summary 10. Exercises 11. Bibliography 4. Chapter 3: Review of Basic Data Analytic Methods Using R 1. 3.1 Introduction to R 2. 3.2 Exploratory Data Analysis 3. 3.3 Statistical Methods for Evaluation 4. Summary 5. Exercises 6. Bibliography 5. Chapter 4: Advanced Analytical Theory and Methods: Clustering 1. 4.1 Overview of Clustering 2. 4.2 K-means 3. 4.3 Additional Algorithms 4. Summary 5. Exercises 6. 7. 8. 9. 10. 6. Bibliography Chapter 5: Advanced Analytical Theory and Methods: Association Rules 1. 5.1 Overview 2. 5.2 Apriori Algorithm 3. 5.3 Evaluation of Candidate Rules 4. 5.4 Applications of Association Rules 5. 5.5 An Example: Transactions in a Grocery Store 6. 5.6 Validation and Testing 7. 5.7 Diagnostics 8. Summary 9. Exercises 10. Bibliography Chapter 6: Advanced Analytical Theory and Methods: Regression 1. 6.1 Linear Regression 2. 6.2 Logistic Regression 3. 6.3 Reasons to Choose and Cautions 4. 6.4 Additional Regression Models 5. Summary 6. Exercises Chapter 7: Advanced Analytical Theory and Methods: Classification 1. 7.1 Decision Trees 2. 7.2 Naïve Bayes 3. 7.3 Diagnostics of Classifiers 4. 7.4 Additional Classification Methods 5. Summary 6. Exercises 7. Bibliography Chapter 8: Advanced Analytical Theory and Methods: Time Series Analysis 1. 8.1 Overview of Time Series Analysis 2. 8.2 ARIMA Model 3. 8.3 Additional Methods 4. Summary 5. Exercises Chapter 9: Advanced Analytical Theory and Methods: Text Analysis 1. 9.1 Text Analysis Steps 2. 9.2 A Text Analysis Example 3. 9.3 Collecting Raw Text 11. 12. 13. 14. 4. 9.4 Representing Text 5. 9.5 Term Frequency—Inverse Document Frequency (TFIDF) 6. 9.6 Categorizing Documents by Topics 7. 9.7 Determining Sentiments 8. 9.8 Gaining Insights 9. Summary 10. Exercises 11. Bibliography Chapter 10: Advanced Analytics—Technology and Tools: MapReduce and Hadoop 1. 10.1 Analytics for Unstructured Data 2. 10.2 The Hadoop Ecosystem 3. 10.3 NoSQL 4. Summary 5. Exercises 6. Bibliography Chapter 11: Advanced Analytics—Technology and Tools: In-Database Analytics 1. 11.1 SQL Essentials 2. 11.2 In-Database Text Analysis 3. 11.3 Advanced SQL 4. Summary 5. Exercises 6. Bibliography Chapter 12: The Endgame, or Putting It All Together 1. 12.1 Communicating and Operationalizing an Analytics Project 2. 12.2 Creating the Final Deliverables 3. 12.3 Data Visualization Basics 4. Summary 5. Exercises 6. References and Further Reading 7. Bibliography End User License Agreement List of Illustrations 1. Figure 1.1 2. Figure 1.2 3. Figure 1.3 4. Figure 1.4 5. Figure 1.5 6. Figure 1.6 7. Figure 1.7 8. Figure 1.8 9. Figure 1.9 10. Figure 1.10 11. Figure 1.11 12. Figure 1.12 13. Figure 1.13 14. Figure 1.14 15. Figure 2.1 16. Figure 2.2 17. Figure 2.3 18. Figure 2.4 19. Figure 2.5 20. Figure 2.6 21. Figure 2.7 22. Figure 2.8 23. Figure 2.9 24. Figure 2.10 25. Figure 2.11 26. Figure 3.1 27. Figure 3.2 28. Figure 3.3 29. Figure 3.4 30. Figure 3.5 31. Figure 3.6 32. Figure 3.7 33. Figure 3.8 34. Figure 3.9 35. Figure 3.10 36. Figure 3.11 37. Figure 3.12 38. Figure 3.13 39. Figure 3.14 40. Figure 3.15 41. Figure 3.16 42. Figure 3.17 43. Figure 3.18 44. Figure 3.19 45. Figure 3.20 46. Figure 3.21 47. Figure 3.22 48. Figure 3.23 49. Figure 3.24 50. Figure 3.25 51. Figure 3.26 52. Figure 3.27 53. Figure 4.1 54. Figure 4.2 55. Figure 4.3 56. Figure 4.4 57. Figure 4.5 58. Figure 4.6 59. Figure 4.7 60. Figure 4.8 61. Figure 4.9 62. Figure 4.10 63. Figure 4.11 64. Figure 4.12 65. Figure 4.13 66. Figure 5.1 67. Figure 5.2 68. Figure 5.3 69. Figure 5.4 70. Figure 5.5 71. Figure 5.6 72. Figure 6.1 73. Figure 6.2 74. Figure 6.3 75. Figure 6.4 76. Figure 6.5 77. Figure 6.6 78. Figure 6.7 79. Figure 6.10 80. Figure 6.8 81. Figure 6.9 82. Figure 6.11 83. Figure 6.12 84. Figure 6.13 85. Figure 6.14 86. Figure 6.15 87. Figure 6.16 88. Figure 6.17 89. Figure 7.1 90. Figure 7.2 91. Figure 7.3 92. Figure 7.4 93. Figure 7.5 94. Figure 7.6 95. Figure 7.7 96. Figure 7.8 97. Figure 7.9 98. Figure 7.10 99. Figure 8.1 100. Figure 8.2 101. Figure 8.3 102. Figure 8.4 103. Figure 8.5 104. Figure 8.6 105. Figure 8.7 106. Figure 8.8 107. Figure 8.9 108. Figure 8.10 109. Figure 8.11 110. Figure 8.12 111. Figure 8.13 112. Figure 8.14 113. Figure 8.15 114. Figure 8.16 115. Figure 8.17 116. Figure 8.18 117. Figure 8.19 118. Figure 8.20 119. Figure 8.21 120. Figure 8.22 121. Figure 9.1 122. Figure 9.2 123. Figure 9.3 124. Figure 9.4 125. Figure 9.5 126. Figure 9.6 127. Figure 9.7 128. Figure 9.8 129. Figure 9.9 130. Figure 9.10 131. Figure 9.11 132. Figure 9.12 133. Figure 9.13 134. Figure 9.14 135. Figure 9.15 136. Figure 9.16 137. Figure 10.1 138. Figure 10.2 139. Figure 10.3 140. Figure 10.4 141. Figure 10.5 142. Figure 10.6 143. Figure 10.7 144. Figure 11.1 145. Figure 11.2 146. Figure 11.3 147. Figure 11.4 148. Figure 12.1 149. Figure 12.2 150. Figure 12.3 151. Figure 12.4 152. Figure 12.5 153. Figure 12.6 154. Figure 12.7 155. Figure 12.8 156. Figure 12.9 157. Figure 12.10 158. Figure 12.11 159. Figure 12.12 160. Figure 12.13 161. Figure 12.14 162. Figure 12.15 163. Figure 12.16 164. Figure 12.17 165. Figure 12.18 166. Figure 12.19 167. Figure 12.20 168. Figure 12.21 169. Figure 12.22 170. Figure 12.23 171. Figure 12.24 172. Figure 12.25 173. Figure 12.26 174. Figure 12.27 175. Figure 12.28 176. Figure 12.29 177. Figure 12.30 178. Figure 12.31 179. Figure 12.32 180. Figure 12.33 181. Figure 12.34 182. Figure 12.35 List of Tables 1. Table 1.1 2. Table 1.2 3. Table 2.1 4. Table 2.2 5. Table 2.3 6. Table 3.1 7. Table 3.2 8. Table 3.3 9. Table 3.4 10. Table 3.5 11. Table 3.6 12. Table 6.1 13. Table 7.1 14. Table 7.2 15. Table 7.3 16. Table 7.4 17. Table 7.5 18. Table 7.6 19. Table 7.7 20. Table 7.8 21. Table 8.1 22. Table 9.1 23. Table 9.2 24. Table 9.3 25. Table 9.4 26. Table 9.5 27. Table 9.6 28. Table 9.7 29. Table 10.1 30. Table 10.2 31. Table 11.1 32. Table 11.2 33. Table 11.3 34. Table 11.4 35. Table 12.1 36. Table 12.2 37. Table 12.3 Introduction Big Data is creating significant new opportunities for organizations to derive new value and create competitive advantage from their most valuable asset: information. For businesses, Big Data helps drive efficiency, quality, and personalized products and services, producing improved levels of customer satisfaction and profit. For scientific efforts, Big Data analytics enable new avenues of investigation with potentially richer results and deeper insights than previously available. In many cases, Big Data analytics integrate structured and unstructured data with real-time feeds and queries, opening new paths to innovation and insight. This book provides a practitioner’s approach to some of the key techniques and tools used in Big Data analytics. Knowledge of these methods will help people become active contributors to Big Data analytics projects. The book’s content is designed to assist multiple stakeholders: business and data analysts looking to add Big Data analytics skills to their portfolio; database professionals and managers of business intelligence, analytics, or Big Data groups looking to enrich their analytic skills; and college graduates investigating data science as a career field. The content is structured in twelve chapters. The first chapter introduces the reader to the domain of Big Data, the drivers for advanced analytics, and the role of the data scientist. The second chapter presents an analytic project lifecycle designed for the particular characteristics and challenges of hypothesis-driven analysis with Big Data. Chapter 3 examines fundamental statistical techniques in the context of the open source R analytic software environment. This chapter also highlights the importance of exploratory data analysis via visualizations and reviews the key notions of hypothesis development and testing. Chapters 4 through 9 discuss a range of advanced analytical methods, including clustering, classification, regression analysis, time series and text analysis. Chapters 10 and 11 focus on specific technologies and tools that support advanced analytics with Big Data. In particular, the MapReduce paradigm and its instantiation in the Hadoop ecosystem, as well as advanced topics in SQL and in-database text analytics form the focus of these chapters. Chapter 12 provides guidance on operationalizing Big Data analytics projects. This chapter focuses on creating the final deliverables, converting an analytics project to an ongoing asset of an organization’s operation, and creating clear, useful visual outputs based on the data. EMC Academic Alliance University and college faculties are invited to join the Academic Alliance program to access unique “open” curriculum-based education on the following topics: Data Science and Big Data Analytics Information Storage and Management Cloud Infrastructure and Services Backup Recovery Systems and Architecture The program provides faculty with course resources to prepare students for opportunities that exist in today’s evolving IT industry at no cost. For more information, visit http://education.EMC.com/academicalliance. EMC Proven Professional Certification EMC Proven Professional is a leading education and certification program in the IT industry, providing comprehensive coverage of information storage technologies, virtualization, cloud computing, data science/Big Data analytics, and more. Being proven means investing in yourself and formally validating your expertise. This book prepares you for Data Science Associate (EMCDSA) certification. Visit http://education.EMC.com for details. Chapter 1 Introduction to Big Data Analytics Key Concepts 1. Big Data overview 2. State of the practice in analytics 3. Business Intelligence versus Data Science 4. Key roles for the new Big Data ecosystem 5. The Data Scientist 6. Examples of Big Data analytics Much has been written about Big Data and the need for advanced analytics within industry, academia, and government. Availability of new data sources and the rise of more complex analytical opportunities have created a need to rethink existing data architectures to enable analytics that take advantage of Big Data. In addition, significant debate exists about what Big Data is and what kinds of skills are required to make best use of it. This chapter explains several key concepts to clarify what is meant by Big Data, why advanced analytics are needed, how Data Science differs from Business Intelligence (BI), and what new roles are needed for the new Big Data ecosystem. 1.1 Big Data Overview Data is created constantly, and at an ever-increasing rate. Mobile phones, social media, imaging technologies to determine a medical diagnosis—all these and more create new data, and that must be stored somewhere for some purpose. Devices and sensors automatically generate diagnostic information that needs to be stored and processed in real time. Merely keeping up with this huge influx of data is difficult, but substantially more challenging is analyzing vast amounts of it, especially when it does not conform to traditional notions of data structure, to identify meaningful patterns and extract useful information. These challenges of the data deluge present the opportunity to transform business, government, science, and everyday life. Several industries have led the way in developing their ability to gather and exploit data: Credit card companies monitor every purchase their customers make and can identify fraudulent purchases with a high degree of accuracy using rules derived by processing billions of transactions. Mobile phone companies analyze subscribers’ calling patterns to determine, for example, whether a caller’s frequent contacts are on a rival network. If that rival network is offering an attractive promotion that might cause the subscriber to defect, the mobile phone company can proactively offer the subscriber an incentive to remain in her contract. For companies such as LinkedIn and Facebook, data itself is their primary product. The valuations of these companies are heavily derived from the data they gather and host, which contains more and more intrinsic value as the data grows. Three attributes stand out as defining Big Data characteristics: Huge volume of data: Rather than thousands or millions of rows, Big Data can be billions of rows and millions of columns. Complexity of data types and structures: Big Data reflects the variety of new data sources, formats, and structures, including digital traces being left on the web and other digital repositories for subsequent analysis. Speed of new data creation and growth: Big Data can describe high velocity data, with rapid data ingestion and near real time analysis. Although the volume of Big Data tends to attract the most attention, generally the variety and velocity of the data provide a more apt definition of Big Data. (Big Data is sometimes described as having 3 Vs: volume, variety, and velocity.) Due to its size or structure, Big Data cannot be efficiently analyzed using only traditional databases or methods. Big Data problems require new tools and technologies to store, manage, and realize the business benefit. These new tools and technologies enable creation, manipulation, and management of large datasets and the storage environments that house them. Another definition of Big Data comes from the McKinsey Global report from 2011:Big Data is data whose scale, distribution, diversity, and/or timeliness require the use of new technical architectures and analytics to enable insights that unlock new sources of business value. McKinsey & Co.; Big Data: The Next Frontier for Innovation, Competition, and Productivity [1] McKinsey’s definition of Big Data implies that organizations will need new data architectures and analytic sandboxes, new tools, new analytical methods, and an integration of multiple skills into the new role of the data scientist, which will be discussed in Section 1.3. Figure 1.1 highlights several sources of the Big Data deluge. Figure 1.1 What’s driving the data deluge The rate of data creation is accelerating, driven by many of the items in Figure 1.1. Social media and genetic sequencing are among the fastest-growing sources of Big Data and examples of untraditional sources of data being used for analysis. For example, in 2012 Facebook users posted 700 status updates per second worldwide, which can be leveraged to deduce latent interests or political views of users and show relevant ads. For instance, an update in which a woman changes her relationship status from “single” to “engaged” would trigger ads on bridal dresses, wedding planning, or name-changing services. Facebook can also construct social graphs to analyze which users are connected to each other as an interconnected network. In March 2013, Facebook released a new feature called “Graph Search,” enabling users and developers to search social graphs for people with similar interests, hobbies, and shared locations. Another example comes from genomics. Genetic sequencing and human genome mapping provide a detailed understanding of genetic makeup and lineage. The health care industry is looking toward these advances to help predict which illnesses a person is likely to get in his lifetime and take steps to avoid these maladies or reduce their impact through the use of personalized medicine and treatment. Such tests also highlight typical responses to different medications and pharmaceutical drugs, heightening risk awareness of specific drug treatments. While data has grown, the cost to perform this work has fallen dramatically. The cost to sequence one human genome has fallen from $100 million in 2001 to $10,000 in 2011, and the cost continues to drop. Now, websites such as 23andme (Figure 1.2) offer genotyping for less than $100. Although genotyping analyzes only a fraction of a genome and does not provide as much granularity as genetic sequencing, it does point to the fact that data and complex analysis is becoming more prevalent and less expensive to deploy. Figure 1.2 Examples of what can be learned through genotyping, from 23andme.com As illustrated by the examples of social media and genetic sequencing, individuals and organizations both derive benefits from analysis of ever-larger and more complex datasets that require increasingly powerful analytical capabilities. 1.1.1 Data Structures Big data can come in multiple forms, including structured and non-structured data such as financial data, text files, multimedia files, and genetic mappings. Contrary to much of the traditional data analysis performed by organizations, most of the Big Data is unstructured or semi-structured in nature, which requires different techniques and tools to process and analyze. [2] Distributed computing environments and massively parallel processing (MPP) architectures that enable parallelized data ingest and analysis are the preferred approach to process such complex data. With this in mind, this section takes a closer look at data structures. Figure 1.3 shows four types of data structures, with 80–90\% of future data growth coming from non-structured data types. [2] Though different, the four are commonly mixed. For example, a classic Relational Database Management System (RDBMS) may store call logs for a software support call center. The RDBMS may store characteristics of the support calls as typical structured data, with attributes such as time stamps, machine type, problem type, and operating system. In addition, the system will likely have unstructured, quasi- or semi-structured data, such as free-form call log information taken from an e-mail ticket of the problem, customer chat history, or transcript of a phone call describing the technical problem and the solution or audio file of the phone call conversation. Many insights could be extracted from the unstructured, quasi- or semi-structured data in the call center data. Figure 1.3 Big Data Growth is increasingly unstructured Although analyzing structured data tends to be the most familiar technique, a different technique is required to meet the challenges to analyze semi-structured data (shown as XML), quasi-structured (shown as a clickstream), and unstructured data. Here are examples of how each of the four main types of data structures may look. Structured data: Data containing a defined data type, format, and structure (that is, transaction data, online analytical processing [OLAP] data cubes, traditional RDBMS, CSV files, and even simple spreadsheets). See Figure 1.4. Semi-structured data: Textual data files with a discernible pattern that enables parsing (such as Extensible Markup Language [XML] data files that are selfdescribing and defined by an XML schema). See Figure 1.5. Quasi-structured data: Textual data with erratic data formats that can be formatted with effort, tools, and time (for instance, web clickstream data that may contain inconsistencies in data values and formats). See Figure 1.6. Unstructured data: Data that has no inherent structure, which may include text documents, PDFs, images, and video. See Figure 1.7. Figure 1.4 Example of structured data Figure 1.5 Example of semi-structured data Figure 1.6 Example of EMC Data Science search results Figure 1.7 Example of un ... Purchase answer to see full attachment
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Your assignment may be more than 5 paragraphs but not less. INSTRUCTIONS:  To access the FNU Online Library for journals and articles you can go the FNU library link here:  https://www.fnu.edu/library/ In order to n that draws upon the theoretical reading to explain and contextualize the design choices. Be sure to directly quote or paraphrase the reading ce to the vaccine. Your campaign must educate and inform the audience on the benefits but also create for safe and open dialogue. A key metric of your campaign will be the direct increase in numbers.  Key outcomes: The approach that you take must be clear Mechanical Engineering Organic chemistry Geometry nment Topic You will need to pick one topic for your project (5 pts) Literature search You will need to perform a literature search for your topic Geophysics you been involved with a company doing a redesign of business processes Communication on Customer Relations. Discuss how two-way communication on social media channels impacts businesses both positively and negatively. Provide any personal examples from your experience od pressure and hypertension via a community-wide intervention that targets the problem across the lifespan (i.e. includes all ages). Develop a community-wide intervention to reduce elevated blood pressure and hypertension in the State of Alabama that in in body of the report Conclusions References (8 References Minimum) *** Words count = 2000 words. *** In-Text Citations and References using Harvard style. *** In Task section I’ve chose (Economic issues in overseas contracting)" Electromagnetism w or quality improvement; it was just all part of good nursing care.  The goal for quality improvement is to monitor patient outcomes using statistics for comparison to standards of care for different diseases e a 1 to 2 slide Microsoft PowerPoint presentation on the different models of case management.  Include speaker notes... .....Describe three different models of case management. visual representations of information. They can include numbers SSAY ame workbook for all 3 milestones. You do not need to download a new copy for Milestones 2 or 3. When you submit Milestone 3 pages): Provide a description of an existing intervention in Canada making the appropriate buying decisions in an ethical and professional manner. Topic: Purchasing and Technology You read about blockchain ledger technology. Now do some additional research out on the Internet and share your URL with the rest of the class be aware of which features their competitors are opting to include so the product development teams can design similar or enhanced features to attract more of the market. The more unique low (The Top Health Industry Trends to Watch in 2015) to assist you with this discussion.         https://youtu.be/fRym_jyuBc0 Next year the $2.8 trillion U.S. healthcare industry will   finally begin to look and feel more like the rest of the business wo evidence-based primary care curriculum. Throughout your nurse practitioner program Vignette Understanding Gender Fluidity Providing Inclusive Quality Care Affirming Clinical Encounters Conclusion References Nurse Practitioner Knowledge Mechanics and word limit is unit as a guide only. The assessment may be re-attempted on two further occasions (maximum three attempts in total). All assessments must be resubmitted 3 days within receiving your unsatisfactory grade. You must clearly indicate “Re-su Trigonometry Article writing Other 5. June 29 After the components sending to the manufacturing house 1. In 1972 the Furman v. Georgia case resulted in a decision that would put action into motion. Furman was originally sentenced to death because of a murder he committed in Georgia but the court debated whether or not this was a violation of his 8th amend One of the first conflicts that would need to be investigated would be whether the human service professional followed the responsibility to client ethical standard.  While developing a relationship with client it is important to clarify that if danger or Ethical behavior is a critical topic in the workplace because the impact of it can make or break a business No matter which type of health care organization With a direct sale During the pandemic Computers are being used to monitor the spread of outbreaks in different areas of the world and with this record 3. Furman v. Georgia is a U.S Supreme Court case that resolves around the Eighth Amendments ban on cruel and unsual punishment in death penalty cases. The Furman v. Georgia case was based on Furman being convicted of murder in Georgia. Furman was caught i One major ethical conflict that may arise in my investigation is the Responsibility to Client in both Standard 3 and Standard 4 of the Ethical Standards for Human Service Professionals (2015).  Making sure we do not disclose information without consent ev 4. Identify two examples of real world problems that you have observed in your personal Summary & Evaluation: Reference & 188. Academic Search Ultimate Ethics We can mention at least one example of how the violation of ethical standards can be prevented. Many organizations promote ethical self-regulation by creating moral codes to help direct their business activities *DDB is used for the first three years For example The inbound logistics for William Instrument refer to purchase components from various electronic firms. During the purchase process William need to consider the quality and price of the components. In this case 4. A U.S. Supreme Court case known as Furman v. Georgia (1972) is a landmark case that involved Eighth Amendment’s ban of unusual and cruel punishment in death penalty cases (Furman v. Georgia (1972) With covid coming into place In my opinion with Not necessarily all home buyers are the same! When you choose to work with we buy ugly houses Baltimore & nationwide USA The ability to view ourselves from an unbiased perspective allows us to critically assess our personal strengths and weaknesses. This is an important step in the process of finding the right resources for our personal learning style. Ego and pride can be · By Day 1 of this week While you must form your answers to the questions below from our assigned reading material CliftonLarsonAllen LLP (2013) 5 The family dynamic is awkward at first since the most outgoing and straight forward person in the family in Linda Urien The most important benefit of my statistical analysis would be the accuracy with which I interpret the data. The greatest obstacle From a similar but larger point of view 4 In order to get the entire family to come back for another session I would suggest coming in on a day the restaurant is not open When seeking to identify a patient’s health condition After viewing the you tube videos on prayer Your paper must be at least two pages in length (not counting the title and reference pages) The word assimilate is negative to me. I believe everyone should learn about a country that they are going to live in. It doesnt mean that they have to believe that everything in America is better than where they came from. It means that they care enough Data collection Single Subject Chris is a social worker in a geriatric case management program located in a midsize Northeastern town. She has an MSW and is part of a team of case managers that likes to continuously improve on its practice. The team is currently using an I would start off with Linda on repeating her options for the child and going over what she is feeling with each option.  I would want to find out what she is afraid of.  I would avoid asking her any “why” questions because I want her to be in the here an Summarize the advantages and disadvantages of using an Internet site as means of collecting data for psychological research (Comp 2.1) 25.0\% Summarization of the advantages and disadvantages of using an Internet site as means of collecting data for psych Identify the type of research used in a chosen study Compose a 1 Optics effect relationship becomes more difficult—as the researcher cannot enact total control of another person even in an experimental environment. Social workers serve clients in highly complex real-world environments. 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After establishing where each member is in relation to the family A Health in All Policies approach Note: The requirements outlined below correspond to the grading criteria in the scoring guide. At a minimum Chen Read Connecting Communities and Complexity: A Case Study in Creating the Conditions for Transformational Change Read Reflections on Cultural Humility Read A Basic Guide to ABCD Community Organizing Use the bolded black section and sub-section titles below to organize your paper. For each section Losinski forwarded the article on a priority basis to Mary Scott Losinksi wanted details on use of the ED at CGH. He asked the administrative resident