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ACT 480 CSUGC Practical Application of Accounting XBRL Financial Data Presentation

ACT 480 CSUGC Practical Application of Accounting XBRL Financial Data Presentation.

I’m working on a accounting presentation and need guidance to help me learn.

I want to double check and make sure my numbers and answers are correct. WIth my notes how would I present this is in a word doc and present in ZOOM PresentationYou are required to complete both parts A and B.Part A:Complete Lab 8-3 Analyze Financial Statement Ratios (pp. 352 – 354) in your textbook. (LAB is Completed and attached with graphs and notes file) I want to double check and make sure my numbers and answers are correct.Part B:Your analysis should be written as an essay and should include the following:IntroductionAnalysis: Headings – Part 1, Part 2, Part 3, Part 4 (i.e., Part 1: Identify the Questions) – headings are shown in the Lab.Global Implications – Note any relevant ethical and regulatory trends affecting domestic and international accounting in the global business environment.Conclusion.Submit your analysis as a Word document and submit any additional requirements noted in the Lab (i.e., Excel files, tables, etc.).Present your findings to the Board of Directors. Using Zoom, create and record a presentation of your analysis (4 slides).
ACT 480 CSUGC Practical Application of Accounting XBRL Financial Data Presentation

Toxic Effect and Treatment Process of Per- and Polyfluoroalkyl Substances (PFASs) Presence in Industrial Waste Water Abstract The presence of Per- and Polyfluoroalkyl Substances (PFASs) in water has raised concerns due to its potential adverse human health effects. These chemicals are toxic in nature and very stable which are not biodegradable. Researchers are studying the fate and transport phenomenon of these chemicals and developing techniques to removes them from contaminated water. Most of the existing water treatment technologies are not effective in removing them. Nanotechnology-based water treatment processes are creating interest because they show significant improvement in capturing PFASs and their replacement chemicals, such as GenX. This paper reviewed the potential human health effects of PFASs, also the current trend of water treatment technologies which are applied to remove/adsorb them from the water. Keywords: Per- and Polyfluoroalkyl Substances, waster water, toxic chemical, water treatment Introduction According to USEPA, “Per- and Polyfluoroalkyl substances (PFASs) are a group of manufactured substances that includes Perfluorooctanoic acid (PFOA), Perfluorooctane Sulfonate (PFOS), GenX, and many other chemicals”. Since the 1940s, these substances have been manufactured and commercialized to use in the various industry around the world, including the United States [1]. The most common and widely used chemicals of this type are Perfluorooctanoic acid (PFOA) and Perfluorooctane Sulfonate (PFOS) which are very rigid and do not degrade in the environment. They can accrue in the human body and causes significant health effects. PFASs are widely found in various consumer products including food packages, commercial household products such as stain- and water-repellent fabrics, nonstick products (e.g., Teflon), polishes, waxes, paints, cleaning products, and fire-fighting foams (a major source of groundwater contamination at airports and military bases where firefighting training occurs) for their water and oil-repelling abilities [2]. They also found in workplaces, including production facilities or industries (e.g., chrome plating, electronics manufacturing or oil recovery) that use PFAS. Moreover, drinking water get contaminant with PFASs typically localized and associated with a specific facility (e.g., manufacturer, landfill, wastewater treatment plant, firefighter training facility). Which in-turns, causes living organisms including fish, animals, and humans to be contaminated by PFAS and PFAS have the ability to build up and persist over time. The need for removal of PFASs from wastewater is growing as the toxic effect of PFAS causes serious effect on human health. Traditional water purification technologies are mostly ineffective in removing PFASs and their replacement chemical such as GenX from the water. Conventional water treatment process such as coagulation/physical separation, oxidation, aeration, disinfection, are not able to remove any PFAS. Nanomaterials and nanotechnology-based water treatment processes show the significant removal of PFAS from the water. Granular activated carbon, powder activated carbon, nanofiltration, show effectiveness in removal of PFASs from water in some extent but they do not selectively remove PFASs. Ji et al., (2018) created an amine-functionalized covalent organic framework Chemical Structure of the Selected Elements PFOA and PFOS are made up of “chains” of eight carbon atoms that are attached to fluorine and other atoms. Replacement chemicals, like GenX, tend to have fewer carbon atoms in the chain but have many similar physical and chemical properties as their predecessors (e.g. they both repel oil and water) [1]. In PFASs structures, all hydrogen atoms of the corresponding hydrocarbon compound are substituted for fluorine atoms. The polar carbon-fluorine bond is the most stable bond in organic chemistry. Therefore, PFASs are thermally and chemically more stable than the analogue hydrocarbons. Generally, they consist of a hydrophilic end group, i.e. sulfonate or carboxylate end group, and a hydrophobic perfluorinated carbon chain (Figure 1) [3]. Figure 1: Structural formula of perfluoroalkycarboxylates and sulfonates; in technical products also, molecules with shorter and longer perfluoroalkyl chain may occur to some extent GenX is the commercial name of perfluoro-2-propoxypropanoic acid (CAS No. 62037- 80-3). The chemical structure of GenX is shown in Figure 2. GenX is a type of per-and polyfluoroalkyl substances (PFAS), which are used in products ranging from food packagings such as popcorn bags and pizza boxes to household products like Teflon and electronic components [1]. Figure 2: GenX Figure 3 shows the common anion of GenX when it dissolved in water it leaves the ammonium groups [4]. Table 1 represented the detail information (nomenclature and properties) about GenX. Figure 3: GenX carboxylate anion that forms in water Table 1 GenX nomenclature and properties Toxic Effects There are lot of studies showing PFASs and GenX are toxic to a living organism such as human and it is very likely that people can be exposed to these toxic chemicals in various ways. If humans, or animals, ingest PFAS (by eating or drinking food or water that contain PFASs), the PFASs are absorbed and can accumulate in the body. PFASs stay in the human body for long periods of time. As a result, as people get exposed to PFAS from different sources over time, the level of PFAS in their bodies may increase to the point where they suffer from adverse health effects. Studies indicate that PFOA and PFOS can cause reproductive and developmental, liver and kidney, and immunological effects in laboratory animals. Both chemicals have caused tumors in animal studies. Studies found that exposure to PFASs can cause to the following health issues [1, 5]: affect growth, learning, and behavior of infants and older children lower a woman’s chance of getting pregnant interfere with the body’s natural hormones increase cholesterol levels affect the immune system increase the risk of cancer low infant birth weights, effects on the immune system, cancer (for PFOA), and thyroid hormone disruption (for PFOS). Treatment Process of PFASs Since PFASs are not biodegradable, researcher applied common water treatment process to see how much they can remove. Common water treatment process including, Coagulation, Oxidation, Aeration, Disinfection, Riverbank filtration, Anion exchange, Reverse osmosis, Granulated activated carbon treatment, Nanofiltration, Ozofractionation, Electrochemical oxidation, Sonolysis, etc. Most of the conventional water treatment processes are failed to remove PFASs from the water. Recent nanotechnology-based selective removal of PFASs showed significant effectiveness in removing of these toxic chemicals from water. Coagulation Appleman et al., (2014) studied the full-scale water treatment systems for the removal of PFASs where they justified various techniques including coagulation if they were able to remove PFASs from the water. They applied coagulation followed by sedimentation or Dissolved Air Flotation (DAF) and/or filtration to treat the wastewater. The used coagulants included aluminum sulfate and polymer in one sample and aluminum sulfate in the second sample, and polyaluminum chloride in the third sample. The results found that, Coagulation followed by sedimentation did not lead to PFAS removal, but where DAF was used instead of sedimentation, a 49% removal of PFAS was observed. Figure 4 represents the typical coagulation method for water treatment. Figure 4: Coagulation method to remove impurities from water. Oxidation Oxidation and disinfection processes including ozonation, aeration packed towers, potassium permanganate, ultraviolet (UV) treatment, chlorination (Cl2) with and without chloramination, and chlorine dioxide, all of these processes proved mostly ineffective in removing of PFAS (Appleman et al., 2014). Typical oxidation and disinfection process is shown in figure 5. Figure 5: Oxidation and disinfection method Anion Exchange Iron infused anion exchange resin was designed for arsenic removal and it was further used for PFASs removal by Appleman et al., (2014). The resin was successful in reducing some of the PFAS levels. In particular, PFHpA was partially removed (46%), as were PFOA (75%), and PFBS (81%). PFNA, which was only detected in one of the two raw water samples, exhibited >67% removal. It is possible that certain AIX resins can target PFAS sorption by ion exchange and/or hydrophobic interactions. Detail Anion exchange method is given in figure 6. Figure 6: Anion exchange method for water treatment Reverse Osmosis (RO) Figure 7 depicts the water treatment technology for reverse osmosis which can be used for removal of PFASs from the water. Figure 7: Reverse osmosis principle Appleman et al., (2014) in their full-scale water treatment for PFASs removal, among other existing practice they used reverse osmosis technique to remove PFASs. They applied polyamide Hydranautics ESPA2 membranes in a three-stage array with a 12 gfd flux rate and 85% recovery in one site, and used Toray and Hydranautics RO membranes with an RO flux rate of 12 gfd and 80% recovery for another site. Results found that RO was most effective in removing PFASs from water compared to all other techniques they used. Granulated Activated Carbon (GAC) Granulated activated carbon was used to remove PFASs from water in different water facilities by Appleman et al., (2014). They utilized Calgon F600 (coal-based) media and was set up with two contactors, a lead and a lag, that run-in series with a flow between 1.4 and 1.5 m3/min, and an empty bed contact time (EBCT) of approximately 13 min in each contactor. Results found that GAC treatment was effective in removing PFASs from the water. Amine-Functionalized Covalent Organic Frameworks Recently Ji et al., (2018) created aa amine functionalized covalent organic frameworks for next-generation water treatment of PFASs removal [6]. The idea of this system was to remove PFASs and GenX from water by selective adsorption. The cost and performance limitations of current PFAS removal technologies motivate authors to develop selective and high-affinity adsorbents. Covalent organic frameworks (COFs) are unexplored yet promising adsorbents because of their high surface area and tunable pore sizes. Authors reduced the azide-functionalized COFs to the corresponding amine functionalized networks and demonstrate their promise as adsorbents for PFAS. The COFs amine groups interact with the anionic head group of PFAS, along with ample hydrophobic surface area that further support adsorption. The optimized materials, with amine loadings of 20–28%, bind 13 PFAS with high affinity and rapid kinetics. Figure 8 depicts the amine functionalized covalent organic frameworks. Figure 8: Amine functionalized covalent organic frameworks for PFASs adsorption Results
McDonalds Geographical Expansion Strategies Case Study.

I’m working on a Marketing question and need an explanation to help me understand better.

Read the Chapter Case Study “McDonald- A Global Giant” from Chapter 8 “Global Marketing” Page: – 257 given in your textbook – “Marketing” (7th Edition) by Dhruv. Grewal and Michael. Levy (2020) and answer the following Questions: Assignment Question(s): Which sociocultural factors have informed McDonald’s global expansion? Explain. Describe some of the global distribution strategies that McDonald’s uses or might consider using to spread through-out the world. Explain McDonald’s global marketing strategy. Compare McDonald’s strategy in the U.S. (http://www.mcdonalds.com/us/en/home.html)to McDonald’s strategy in KSA (https://www.mcdonalds.com/sa/en-sa/riyadh/full-menu.html/) I want no similarity and 5 references useAPA references and not less than 700 words Book page attachment
McDonalds Geographical Expansion Strategies Case Study

Addiction in America Essay

Addiction in America Essay. Rehabilitation readiness assists treatment providers in identifying whether or not an individual is ready to engage in the change process. It also helps in identifying the necessary steps to assist an individual to become ready to engage in change. In this activity, you will apply the readiness assessment tool to a case study. Review the following: Intervention episode used in Module 4: Intervention #4 (Alissa and Brian) (Links to an external site.) Discuss the following points in your post: What are your thoughts on using the readiness assessment tool for addictive behaviors? What is the stage of readiness in each of these areas for Brian and/or Alyssa? Need for change Commitment to change Self-awareness Environmental awareness Personal closeness Identify a possible next step in the process for the individual you selected that you feel will assist them in their readiness for change. Be sure to rate each of the readiness assessment areas. Your next steps should be appropriate to the data you discuss in the readiness assessment.Addiction in America Essay

Governors State University Stereotypes Of Aging Grumpy Old Men Film Analysis

nursing essay writing service Governors State University Stereotypes Of Aging Grumpy Old Men Film Analysis.

Aging on Film: Images of aging are powerfully and sometimes poignantly presented in full-length feature film. Some films accurately depict aging for many Americans and elders in other cultures; other films portray more inaccurate and stereotypic views of the aging process and older adults. Watch one of the films below. Choose an aging topic, investigate it in the research literature, and then write a summary of the movie (2-3 pargagraphs), and a 5 page paper on the film and how images of aging are presented.Movies to choose from ONLY:Turning PointOn Golden PondDriving Miss DaisyGoing in StyleFried Green TomatoesWhales of AugustGrumpy Old MenJoy Luck ClubDadStrangers in Good CompanyCocoonBatteries Not Included
Governors State University Stereotypes Of Aging Grumpy Old Men Film Analysis

Digital Culture

Digital Culture.

I’m working on a cultural studies multi-part question and need an explanation to help me understand better.

I’m working on a cultural studies report and need support to help me learn.Please write an essay (2000 words) on one of the following topics.1. Digital media are transforming the way in which we form romantic/sexual relations. Discuss the positive and negative aspects of these transformations.2. Digital self-trackers are argued to promote health. Critically discuss the use of these technologies based on published studies.3. Are social media harmful or helpful for mental wellbeing?4. Drawing on literature on digital disconnection and on the experiment with disconnection conducted for this module, critically discuss the contemporary suggestions to disconnect from social media and smartphones?5. Digital media facilitates a new mode of consumption called ‘prosumption.’ It has been claimed that prosumption is more participatory than previous modes of consumption. Do you agree?
Digital Culture

Anne Arundel Community College Weather from National Weather Services Summary

Anne Arundel Community College Weather from National Weather Services Summary.

There are many weather resources on the internet. This homework is designed to help you explore one of the many sites that provide weather information.The assignment is to visit the site listed below and provide a written summary. ( https://www.weather.gov/fgf/ )The summary must be no less than 1.5 pages of typed text, double-spaced using a font size of 12. •1.5 pages long, double spaced, 11-12-point font, Times New Roman, or Calibri The header information does not count towards text. Top, bottom and side margins will be no larger than 1 inch. The summary will include details on the various weather parameters provided on the site. What features did the site have? What did you learn? What was your overall general feeling about the site? Did you find the site to be worthwhile and easy to use? In addition, please include two or three images from the site that includes the current date and time stamp. These images can be copied and pasted directly into your word document. These images can include, but not limited to, radar and satellite images, or various weather maps provided on the site. The images DO NOT count towards the 1.5 pages of text.Your paper will be graded on content and grammar. This includes, but not limited to: spelling, punctuation, introduction and conclusion paragraphs, sentence structure, general flow of the paper, etc.
Anne Arundel Community College Weather from National Weather Services Summary