Descriptive Essay - Original Writing - 1471 Words

When I was a young child, my family and I would travel to Vermont to stay with my grandparents. They lived on a mountain a little way out from the small town of Troy, Vermont. The land overflowed with the most beautiful trees and wildlife that I have ever seen. My grandfather protected his lands, he ensured that no one would hunt on them so that the animals would be safe from poachers. I would sit outside in the grass of our backyard clearing and just stare out into the wilderness that surrounded me. Some of my cousins felt scared of the woods, but I loved them like they were a part of me. For hours, I would gaze into the trees and watch the wild creatures, it was peace for me. Deer’s would come so close to the clearing that I could see†¦show more content†¦Envision a world filled with nothing but cities, roads, and interstates. That there were no trees to stare at while you drove to see your family, that wonders like the Amazon Rain Forest no longer existed. Imagine what that world would be like. An environment devoid of nature, made up of only concrete and steel. This may be the human race’s fate if urbanization continues. If we stop urban encroachment on nature, such as deforestation, we can start to rebuild nature for greater chances of physical and mental wellbeing. So our children have the chance to feel the peace and happiness that I once did. A multitude of studies have been initiated to research the relationship between human health and nature. Many of these studies have found that there exists a positive association between natural environments and mental health. The more nature that people expose themselves to, the more it impacts their wellbeing. I believe that the preservation of the natural environment will have a positive effect on human health by reducing stress levels and increasing mental wellbeing and vivacity. To better understand the urgency behind the preservation of nature, one must first understand it’s long history. No one knows what the world looked like thousands of years ago, but I imagine it being wild, free, and full of life. All forms of life wandering about the Earth, living their natural lifecycles. We, the Species Homo sapiens, first appeared in Africa, soon after we

Disney Park Free Essays

Disney Theme Parks Case 1. What do you think motivated Disney to set up parks abroad, and what might be the pros and cons from the standpoint of the Walt Disney Company? The reason behind Disney’s motivation to set up theme parks abroad were mostly because of business opportunities. Based on how successful the Disney Theme Park is in the United States and the attraction they are gaining from foreigners, the management probably realized that it is time to consider entering the global market. We will write a custom essay sample on Disney Park or any similar topic only for you Order Now By doing this, it would mean an increase of sales for the company. This is somehow a form of advertisement for people to buy their products and even to attract more and more consumers. Opening another theme park in a different country would also contribute to the survival of the company should their theme park in the United States lower in sales. On the other hand, for the cons, one is concerning the cultural factors that may hinder the company from doing business in other countries. A good example would be the concerns in Paris. They feared that putting up a Disney Theme Park in their country might destroy their own culture. Another con would probably be the area where the park would be best put up. In other words, which area the theme park should be placed that would be profitable. Transportation is another factor as well as competition from other theme parks abroad. 2. Why do you suppose Disney made no financial investment in Japan, one of $140 million in France, and then one of over $300 million in Hong Kong? Disney made no financial investment in Japan because they were considering the risks of building one. They probably think that it might not be as profitable or that putting up a Disney Theme Park in Japan would outweigh the cons than the benefits. Paris, like what was mentioned in the case, is the most visited European City and the French are the largest European consumers of Disney Products. This is the reason why Disney invested in Paris. Also they were getting a lot of support from the country’s government. And with their help, they would be able to get investors. According to the case, the reason why Disney invested only $140 million to take 49% of the ownership in a $5 billion worth of operation was due to the problems they have encountered before, which is the fear of France’s culture to be destroyed. So what Disney did was to add attractions that would cater to French tastes and agreeing to make French the first language in the park. Aside from France, Disney also invested in Hong Kong. The case states that Disney is interested in Asia since it accounts for about half the world’s population and is becoming affluent enough that more people can afford to take trips and pay for leisure activities. They chose Hong Kong not only for their infrastructure, but also because it is Asia’s largest tourist destination. In addition, the families that live in Hong Kong are those with higher family incomes than mainland Chinese cities. Soon after, the two agreed to a joint venture that included 57% ownership by the Hong Kong government and the remaining by Disney. 3. What factors in the external environment have contributed to Disney’s success, failure, and adjustments in foreign them park operations? There are many factors in the external environment that contributed both to Disney’s success and failure. For the factors that contributed to the success, one would probably be Disney’s already popular reputation, which helped them in entering the global market easily. Another is their strategy of focusing on countries that would ensure and give them better business opportunities. Another factor to be considered is the government support they are getting. As for the factors that contributed to their failure, one that is mentioned in the case is that they encounter problems concerning the culture of other countries. Another example would be the almost downfall of Euro Disney when their shares went down to 39% and the general public to 36%. This is probably due to the high prices and their no-alcohol policy. Another factor that contributed to their failure is the climate. Some countries were just too cold to attract visitors. 4. Should Disney set up a park in Shanghai? If so, what types of operating adjustments might it make there? It is not advisable for Disney to put up a theme park in Shanghai. One of the major reasons is competition. The case states that China has built more than 2000 amusement parks, ranging from lavish to shoddy. Although most of them have not done well, putting up a Disney Theme Park would not necessarily mean that it would eliminate its competitors. In addition, China’s one child per family policy may hinder the success of Disney. The visitors of Disney Theme Parks are mostly children, and if the number is lacking, it would also probably mean lack of visitors. Another reason is that if Disney puts up a theme park in Shanghai, there would be few customers since there is also a Disney theme park in Hong Kong. How to cite Disney Park, Essay examples

Toyota production system free essay sample

Toyota incorporated concepts just as supply chain management and inventory management to create high quality automobiles and gain a competitive edge in the highly competitive global automobile market. Toyota’s success and its lean manufacturing philosophy have been widely studied. The Toyota manufacturing system is centred on achieving a high level of productivity. The company has a unique approach to problem solving and it continuously trains its employees. The Toyota Production Systems is based on the lean manufacturing philosophy that seeks to minimize wastages and centres on cost reduction. The Toyota manufacturing philosophy emphasises on quality management through a process of continuous improvement. This report looks at how Toyota created its manufacturing system and the role of operation management techniques to enhance efficiency. This report examines the production processes and philosophy and Toyota to assess how the company has achieved a competitive advantage globally. The lean manufacturing philosophy pioneered by Toyota has become a benchmark for all manufacturing companies around the world. The lean manufacturing philosophy includes concepts such as customer relations, product design, supplier networks and operations. The lean manufacturing practices have made Toyota achieve low cost production and allowed them to manufacture high quality cars at lowered costs. This report looks at how operations management techniques such as supply chain management and inventory management have led to efficiency and profitability at the Toyota Motor Company. 2. 0 Operations Management The study of operations management looks at the production of quality goods and service. The aim of this discipline is to create efficient and effective business operations. Operation management seeks to ensure the efficient management of resources along with the distribution of goods and services. Operation management seeks to enhance manufacturing performance and this study has proposed various techniques and a heoretical framework to achieve this goals. These techniques include quality management (TQM), just in time (JIT) or Leaning manufacturing. Other concepts in the field of operations management include six sigma and supply chain management. The competitive pressure for improved product quality has led to numerous operations paradigms emerging/ the most significant ones include Just in Time, Total Quality Management (TQM) AND Supply chain management (SCM). JIT seeks to eliminate waste and recue setup times, it also controls the material flows and focuses on effective resource utilisation. The TQM philosophy looks at developing a corporate culture that is customer focused empowers employees and seeks continuous improvement. The supply chain management integrates buyers and suppliers decision-making to improve the flow of materials in the supply chain. The JIT, TQM and SCM approaches improve the effectiveness and efficiency of the operations function (Kannan Tan, 2005). 3. 0 Toyota Production System (TPS) The TPS lead to the lean production movement that emphasises on eliminating waste from value streams. This production system is highly standardised. The production systems have buffers that are controlled through various pull signals. The lean production is very efficient and greatly improves quality that has given Toyota an edge in the global automobile markets. Toyota’s success as an automaker in the world is based on its expertise in creating a unique production system. This TPS is based on the principles of continuous improvement also known as Kaizen. The Toyota company has a highly decentralised workforce which is highly trained and takes part in the decision making process. The TPS consists of most successful Japanese production and work practices. This approach was developed by SakichiToyoda the founder of Toyota who pioneered the TPS. It was Taciichi Ohno that created the Just in Time (JIT) production systems. The JIT approach made Toyota more efficient and these techniques also incorporated total quality control, statistical process control and quality circles. The Toyota manufacturing system is characterised by a continuous flow of production that allows the company to be flexible enough to adapt to the demand conditions. The JIT ensures that only the required materials for the production are acquired at the right time. The JIT systems also include human resources in the cost and production systems . Toyota has also streamlined its production processes through implementing Total Quality Management (TQM) process to lower costs and enhance quality (Amasaka, 2002). The TPS is linked externally and to the entire production system, the main TPS practices are focused on detecting, assessing and eliminating sources of the entire production system. The sequential relationship amongst the external and internal links includes three types of interaction; the first is upstream integration which is between the external suppliers and internal suppliers within the firm. The internal integration is between the firm actors that own successive process stages as either internal suppliers and internal customers. The downward integration is between the internal suppliers that own the last process stage and firm’s external customers (Jayaram et al, 2012). Figure 1 Structural links internal and external to the organization Source Jayaram et al (2012) The problem solving framework at Toyota constantly evaluates the performance of the TPS by detecting any variance on the production process. The variance assessment includes part of product, people or personnel, procedure or method and equipment or machine. The system variation can result from product variation, poor quality or inputs, flawed design or misaligned processes (Jayaram et al, 2010). Figure 2 Toyota’s problem solving framework. Source Jayaram et al (2012) The employees can also lead to variations in the systems and performance owing to lack of proper training or motivation. Toyota has implemented a decentralised problem solving approach that empowers the works to make decisions. The principle of Kaizen is made possible with standardisation in the company. Toyota has standardised technical skills to ensure a flexible  staff in the company (Jayaram et al, 2010). 4. 0 Just in Time Inventory Management The Japanese automakers have been very successful in improving their productivity and efficiency by focusing on continuous improvement. JIT has evolved from continuous improvement paradigm. The JIT creates a flexible environment in which the whole organisation is responsible for eliminating waste. Toyota Motor Company pioneered the just in time (JIT) production system during the mid-1970s the JIT production system is also known as the zero inventory production system. JIT manufacturing is a production philosophy that is based on three fundamental principles that include elimination of waste, continuous quality improvement, and a participative work culture. The JIT systems become more efficient and used the Kanban as an information exchange tool for different production lines. Through using the JIT the wastages in the production process are minimised and the defect prevention system enhance the quality of the products. To improve quality and automobile exports Toyota implemented Total quality controls in the company. The lean production techniques have also be termed as the post Fordism system of work that is more efficient, humane and democratic. A central tenet of lean production is the concept of kaizen that is continuous improvement in the production process. The concept of lean manufacturing originates in the Toyota Motor Corporations; resulted from scarcity of resources and intense domestic competition in automobile market in Japan. The lean philosophy incorporated the JIT production system and the Kanban method of pull production. Toyota also introduced the concept of respect for employees and team working (Hines et al, 2004). Lean manufacturing involves inventory and quality control, industrial relations, labour management and supply chain management. Studies show that lean manufacturing reduces human effort by 50% along with the manufacturing space, tool inventory and improved financial performance. This manufacturing system also includes lean logistics that is the ability to administer systems to control the movement of materials, work in process and finished inventories at the lowest cost. To ensure long term competitiveness a manufacturing firm has to develop capabilities of JIT production and delivery. The suppliers have to be able to respond to the increasing needs of the customers. The lean production system requires rapid flows of information along the value chain. Toyota uses the Kanban system to achieve this along with computerised information that can be exchanged with the suppliers to reduce lead times (Wu, 2003)6. 0 Supply Chain Management The supply chain management (SCM) is a key strategic factor for enhancing organisational effectiveness and achieving organisational goals. With the globalisation of the markets and increase in outsourcing companies use supply chain and logistics techniques to manage their operations. Toyota’s supply chain management approach focuses mainly on resources that were of critical importance. Toyota created a Keiretsu structure comprising of the dependent suppliers that worked in close proximity to the Toyota factories. The company outsourced aspects that were not critical to the ability of maximising the shareholder value. Toyota was able to create such a supply chain because the supplier was relatively dependent on them in highly contested markets. Toyota created an assembly based systems that was demand pull and JIT based, it had dominant power relationships with the suppliers. This allowed the company to be innovative and create a customised supply chain. Toyota also implements effective controls over quality, cost and innovation. The supply chain at Toyota can be described as entrepreneurial.

The History of Architecture

Concrete is a composite material consisting of a binder, gravel, and aggregate, mixed with water (Li 3). The history of concrete dates back to ancient Egypt, where builders used straw and clay make building blocks. Their goal was to produce a durable construction material as the basis for building larger structures.Advertising We will write a custom essay sample on The History of Architecture specifically for you for only $16.05 $11/page Learn More Currently, concrete is the most widely used construction material in the world. The creation of concrete revolutionized the practice of design and architecture because it gave builders new possibilities. This paper traces the history of concrete, and examines the current application of concrete in construction projects. The paper starts by examining the history of concrete since the time of the Egyptians to the present. It then surveys the types of concrete used in the world today. The paper then explores the concrete framing systems followed by a discussion of the unique attributes of concrete. The final section of the paper deals with modern uses of concrete in architecture and design, and the environmental impacts of concrete production and usage. Historical Methods of Making Concrete The Egyptians were the first people to make a composite material designed to improve its structural qualities as a building material. They mixed straw and clay to make bricks. The Egyptian straw bricks could withstand cracking. This meant that buildings made with straw bricks lasted longer than buildings made from clay bricks. Egyptian straw bricks date back to 3000 BC (Brookes 34). The Romans were the first people to develop durable concrete. Many concrete structures constructed during the Roman era that still stand today. The Romans discovered that a mixture of volcanic ash, quick lime, and pumice dried into a hard substrate suitable for construction (Li 6). They went ahead to use this mixture in the c onstruction of their structures. Many structures from the Roman era that still stand today came up between 300 BC and 400 AD. After the collapse of the Roman Empire, concrete technology disappeared until early in the nineteenth century. During the nineteenth century, a British researcher named James Parker rediscovered hydraulic concrete after conducting research into Roman methods of concrete making. The Industrial Revolution led to resurgence in the use of concrete for construction. In the same period, a British mason named Joseph Aspdin patented Portland cement after inventing a procedure for producing cement from baked lime. Cement became a primary ingredient in the preparation of concrete.Advertising Looking for essay on architecture? Let's see if we can help you! Get your first paper with 15% OFF Learn More After the rediscovery of concrete, architects and engineers continued to experiment with different ratios of the materials used in the production of concrete. The result was a plethora of concrete types available for different uses today. Part of the ideas that came up from these experiments was the reinforcement of concrete. This gave rise to new possibilities in the building and construction industry. Types of Concrete The third classification of concrete types is according to additives. Three examples of concrete based on their additives are Fiber reinforced concrete, macro-defect-free (MDF) concrete and DSP concrete (Li 17). DSP is the acronym for concrete whose density has been increased using small particles (Li 17). There are many other types of additives used to make different types of concrete for various applications. In practice, concrete users use specific names to refer to specific concrete types depending on their composition and their uses. This system yields a long list of concrete types. It is important to sample a few of these concrete types to illustrate this point. When construction technologists need to add a layer o f concrete to line a rock face or to hold back soil, they sometimes choose to shoot concrete using compressed air. This saves time and it eliminates the need for formwork. Concrete applied in this manner is called â€Å"shotcrete† (Fling 3). Shotcrete is useful for lining tunnels to reduce or eliminate seepage during construction. The actual mixture of concrete used as shotcrete depends on the need. Hydraulic concrete mixtures can help to stop leaks, while lightweight concrete can be used for aesthetic purposes. The ease of making concrete has led to the development of many kinds of concrete. The differences in concrete types arise from the ratio of materials used in their production and the type aggregate used. The classification of concrete depends on the unit weight, compressive strength, and the additives in it (Li 16). The classification of concrete according to unit weight gives four main types of concrete. These are â€Å"ultra-lightweight concrete (1200 Kg/m3), light weight concrete (1200-1800 Kg/m3), normal-weight concrete (1800-2400 Kg/m3), and heavyweight concrete (3200 Kg/m3) (Li 17).Advertising We will write a custom essay sample on The History of Architecture specifically for you for only $16.05 $11/page Learn More The unit weight of the concrete determines its applicability for various uses. For instance, lightweight concrete is not ideal for load bearing structures. On the other extreme, heavyweight concrete can withstand heavy loads and is an ideal nuclear shield. This means that heavyweight concrete is ideal for the construction of nuclear plants and is ideal for the construction of high radiation installations. Compressive strength refers to the ability of concrete to withstand pressure from compressive forces. Classification of concrete by compressive strength yields four main classes. These are, â€Å"low-strength concrete (20 MPa), moderate-strength concrete (20-50 MPa), high-strength concrete (50-150 MPa), and ultra high-strength concrete (150 MPa)† (Li 17). The pressure that some structures need to withstand is very high. For instance, the pillars of a skyscraper must withstand the stresses resulting from the weight of the entire building. In this case, only high strength concrete is appropriate. However, structures that carry minimal loads such as small footbridges can operate normally with moderate strength concrete. Low strength concrete is ideal for partitions and sub grades of roads (Li 18). In some situations, design considerations favor the use of concrete with air spaces to allow water to seep. The concrete mixture used for this purpose is called pervious concrete. The use of pervious concrete reduces the need for artificial drainage. It also makes it easy to put up concrete structures that do not interfere with water flow to underground water systems. The third type of concrete is glass concrete. This type of concrete uses recycled glass as the aggregate. The us e of glass in this manner improves the appearance of the cured concrete. In addition, glass concrete has better thermal properties and is more durable than many concrete types. As indicated previously, there are very many concrete types. The examples above are illustrative of the concrete types available for use in building and construction. More types of concrete will be available in the future based on current research efforts that are seeking to improve the quality of concrete. Concrete Framing Systems The choice of concrete framing systems is one of the important decisions every designer must make. Framing systems have direct cost implications for all design projects. Poor choice of a concrete framing system can also compromise the stability of the building after construction. It is important for a designer to be aware of the options available and the impact of using each alternative. Fling gave three reasons why the choice of a framing system matters during preliminary design ( 1).Advertising Looking for essay on architecture? Let's see if we can help you! Get your first paper with 15% OFF Learn More First, it leads to the generation of important information about the structural design of the building for use by all stakeholders (Fling 1). Secondly, it increases the efficiency of the project manager because the preliminary design helps in the identification of problems early in the project (Fling 2). Thirdly, it enables designers to optimize their designs before construction begins (Fling 2). The options designers have when choosing concrete framing systems are as follows. First, designers can use the flat plate framing system. The flat plate is very simple and economical to construct because it requires little formwork. It gives designers the flexibility to decide on the location of the supporting columns. Its main disadvantage is that it is susceptible to deflection. Secondly, it has a very low capacity to absorb sheer stress. The ideal application of the flat plate framing system is in buildings with low loads such as hotels and hospitals. The second framing system to choose from is the flat slab. Flat slabs require more formwork because of the need to increase the area of contact between the columns and the base of the slab. This framing system can withstand more weight, and can handle longer spans compared to the flat plate framing system. Thirdly, a designer can use the banded slab framing system. The main difference between this framing system and the previous two is that the beams supporting the slab are flatter but wider. This reduces problems associated with low beams. It is costlier that the flat plate and the flat slab because of more formwork requirements. It is ideal for tall buildings. The fourth framing system is the hoist slab. In this option, several beams run across the bottom of the slab with two beams supporting the resulting framework. The hoist slab is lightweight because it uses small quantities of construction materials. However, the formwork needed to construct this slab is more expensive than the flat plate framing system. The fi fth framing system is the waffle slab. Waffle slabs get their name from the waffle-like appearance of the ceiling. This framing system is ideal for creating longer slabs because the additional span dimensions do not result in additional dead weight. This framing system limits the construction of partitions because the partitions must match the waffles to achieve a clean finish. The formwork for this framing system is expensive and its construction requires experience. This framing system is ideal for covering large spaces since it can support larger spans without requiring additional columns. Unique Attributes of Concrete Concrete has several unique attributes that contribute towards its wide acceptance as a construction material. It is also possible to reduce or eliminate its weaknesses by adding various compounds and structural support systems during its production. First, concrete has very high compressive strength. This explains its wide usage in the construction of load bearing parts in various construction projects. The actual tensile strength of concrete varies depending on concrete type. Usually changing the ratios of the materials used in its production leads to changes in tensile strength. This means that adjusting the mixing ratios of concrete can help to achieve desired tensile qualities. Secondly, concrete has very low tensile strength. The actual values vary depending on the type of concrete. This means that concrete is not ideal for the construction of structures that experience tensile forces. This is what led to the development of reinforced concrete. The steel in the reinforced concrete increases its tensile strength significantly. Concrete has low elasticity. This means that it cannot recover once it is deformed. Elastic forces acting on concrete can lead to the formation of cracks during the process of destructive deformation. These cracks damage the structural qualities of concrete and compromise its ability to withstand tensile and compre ssive forces. The fourth important quality of concrete is that it has a very low coefficient of thermal expansion. Concrete does not expand or contract appreciably based on temperature changes. This quality makes concrete ideal for the construction of large structures because temperature changes have little effect on its mechanical properties. Finally, concrete is prone to creep under constant load. This mechanism relives the stress experienced under constant load. Creep helps concrete structures to set and can contribute to their stability. However, too much creep can lead to weaknesses in concrete structures. Uses of Concrete in Design and Architecture Concrete has various uses in design and architecture. Its widespread use in the construction industry arises from its unique qualities. The following are some of the uses of concrete in design and architecture. First concrete is the main material used in the construction of columns and slabs in buildings. While it is possible to con struct low-level buildings with wood and other materials, it is impossible to construct high-rise buildings without concrete. Concrete makes it possible for planners to build skyscrapers that make the most use of small land areas. The second widespread use of concrete around the world is the construction of bridges. Before the development of concrete technology, bridge designers used steel and wood as the main materials for bridge construction. These materials could not withstand severe weather. Concrete replaced them as the material of choice because of its resilience in extreme weather conditions. Concrete is also a very important material in road design. Technically speaking, tarmac is a type of concrete that uses bitumen in the place of cement. Apart from this, conventional concrete forms the sub grades of roads during road construction. In areas with extreme weather, concrete roads are more resilient compared to bitumen roads. Concrete is ideal for making working surfaces in ki tchens and industries. Its strength makes it ideal for molding large sinks and tubs for industrial use. Its ability to withstand shock and corrosion makes it a perfect choice for the construction of platforms for heavy machines. Exposed-aggregate concrete is a popular material for making driveways. This type of concrete is strong enough to withstand wear. In addition, exposed-aggregate concrete is ideal for use in areas with high human traffic. It can withstand the wear arising from heavy use. Glass concrete is becoming popular because of its beauty. Glass concrete is also very strong and can withstand wear and tear. In addition, it has impressive corrosion resistant qualities. Concrete is also gaining ground as an ideal substitute for metallic and wooden poles used in the distribution of electricity. The use of concrete poles is reducing the demand for trees previously used to make poles. Since concrete does not need chemical treatment to withstand corrosion, the use of concrete po les will eliminate the demand for the chemicals used to treat wooden poles. Architects and designers can use concrete poles as part of sustainable design. Many storm drains and sewerage lines are made using concrete pipes. Concrete is resistant to corrosion, and it does not leak. In addition, the ease of molding concrete pipes makes it possible to plan for custom systems during architectural design. High-density concrete can block radiation. This is why shields made from concrete blocks are important in the design and construction of nuclear facilities. In addition, high-density concrete is ideal for making bomb shelters and for erecting security barriers. In this regard, architects and designers can use concrete as the material of choice to design maximum-security facilities. Environmental Impacts Concrete has both positive and negative impacts on the environment. The positive impacts of the production and use of concrete are as follows. First, the production of concrete encourages the recycling of materials from other industries. This reduces environmental pollution. For instance, the production of glass concrete uses recycled glass from other industries. This type of concrete is durable and ensures that waste glass becomes useful as part of a concrete structure (Li 23). The second positive impact of concrete production is that it helps to reduce the damage to the environment caused by the use of wood in construction. The use of concrete posts for fencing helps to reduce the number of trees needed to build fences. In addition, designers currently prefer concrete to wood in the construction of structures such as bridges. This means that concrete can help to reduce the damage to the environment resulting from the use of wood in construction projects. The negative impacts of concrete usage to the environment are as follows. First, an analysis of the life cycle of concrete shows that it the largest contributor to global greenhouse gas emissions. Estimates place the contribution of concrete production to global greenhouse gas emissions at ten to fifteen percent (Harris 44). Secondly, concrete requires aggregates as well as cement for its production. Many of the aggregates used to produce concrete come from mines around the world. Therefore, the production of concrete contributes to the destruction of landforms and the pollution of the environment because of mining activities. The third impact of concrete use to the environment is that it leads to the generation of waste that is difficult to dispose. In the past, concrete waste ended up in landfills in different parts of the world. New efforts to recycle concrete from collapsed structures still do not salvage all the concrete waste available in the world. In this respect, the continued use of concrete will pose a challenge to the conservation of the environment especially after existing concrete structures outlive their useful lives. Conclusion In conclusion, concrete is a very interesting m aterial for designers and architects. Its appeal will remain for a long time to come because of its outstanding qualities. However, more thought must go into how best to use concrete in order to conserve the environment. Works Cited Brookes, Alan. Innovation in Architecture: A Path to the Future. New York, NY: Taylor Francis, 2003. Print. Fling, Russel S. How to Choose a Concrete Framing System. Aberdeen: The Aberdeen Group, 1988. Print. Harris, Frances. Global Environmental Issues. Chichester: John Wiley Sons, 2004. Print. Li, Zongjin. Advanced Concrete Technology. New York: John Wiley and Sons, 2011. Print. This essay on The History of Architecture was written and submitted by user Konnor Mathews to help you with your own studies. You are free to use it for research and reference purposes in order to write your own paper; however, you must cite it accordingly. You can donate your paper here.

Where (and How) to Get a Cashier’s Check 8 Simple Steps

Where (and How) to Get a Cashier’s Check 8 Simple Steps SAT / ACT Prep Online Guides and Tips Making a large purchase, such as buying a car or putting a down payment on a house? If so, you may be asked to use a cashier’s check to make your payment. A cashier’s check is a guaranteed way to pay for something and is often requested during large transactions to ensure that you actually have the money you need for your purchase. But what actually is a cashier’s check? Why do you need it? And, if you need one, where can you get one? In this article, I’ll explain exactly where to get a cashier's check and how to get a cashier’s check. I’ll give you options for where to get a cashier’s check and walk you through other options you can use to pay for your purchases if you don’t wish to use a cashier’s check. What Is a Cashier’s Check? A cashier’s check is considered a safe form of payment because it’s guaranteed by the bank. When you use a cashier’s check to pay for a purchase, the bank guarantees that that funds on the check are available to the seller. That way, the seller knows that your check will clear when he or she tries to deposit it and that there’s no chance of your check bouncing. Cashier’s checks are usually required for major purchases, such as when you’re putting a down payment on a house or purchasing a car. Because there's a large sum of money involved, the seller wants to guarantee that they’ll receive the full amount. A cashier’s check helps ensure that they will. You may also be required to use a cashier’s check for slightly smaller transactions, such as a security deposit on your apartment, or even occasionally your monthly rent payment, if required by your landlord. There’s a big difference between a cashier’s check and a personal check, and it can take awhile to get a cashier’s check, so make sure you check your lease or ask your landlord if you need a cashier’s check well before your monthly payment is due. Where to Get a Cashier’s Check You can’t write a cashier’s check on your own, so what are your options for where to get a cashier's check? You’ll need to go into a bank or a credit union. To purchase a cashier’s check, you’ll need two pieces of information. First, you’ll need the exact amount of money you want to guarantee with the check. Second, you’ll need the exact name of the person or institution that’s receiving the check. Make sure you have the name correct - they won’t be able to deposit the cashier’s check if you have a different name on it. If you’re a customer of the bank or credit union, you can get a cashier’s check using the funds that are available in your account. When the bank writes the cashier’s check, they’ll automatically debit the funds for the cashier’s check from your account, which assures the seller that you have the full amount. If you want to purchase a cashier’s check from a bank or credit union where you aren't a customer, you’ll need to bring the full amount in cash. You’ll pay the bank the sum of money in cash and, in return, they’ll provide you with the cashier’s check. For the most part you’ll need to go to the bank in person in order to purchase a cashier’s check, but a few banks, like Wells Fargo, allow you to order cashier’s checks online. However, you’ll need to wait for the check to be processed online and mailed, which can take up to 10 business days. A cashier’s check must be deposited within 90 to 120 days after it’s issued, so make sure the recipient knows that they should deposit the check as soon as they get it. Cashier’s Check Fees In addition to wondering how to get a cashier’s check, customers are often concerned with finding the cheapest place to get a cashier’s check. Purchasing a cashier’s check from a bank will usually cost you a small fee, even if you have an account at the bank. Let’s take a look at the cashier’s check fees at the top 10 US banks. Bank Cashier’s Check Fee For Basic Checking Account Holders Chase $8 Bank of America $10 Wells Fargo $10 Citibank $10 U.S. Bank $7 PNC Bank $10 Capital One $10 TD Bank $8 BBT $10 Suntrust $8 Note that these fees are the fees that it costs customers who have a basic checking account at the bank in question to purchase a cashier’s check. If you’re going to a bank where you don’t have a basic checking account, you might pay more money to purchase a cashier’s check. However, if you have a high-tiered checking account (such as one with a higher monthly deposit requirement or daily minimum balance), you might have a lower fee to purchase a cashier’s check from your bank, or you may not have to pay a fee at all. Often, credit union will offer lower fees for cashier’s checks. If you’re concerned about cost, shop around to see the cheapest place to get a cashier’s check in your area. How to Get a Cashier’s Check In order to purchase a cashier’s check, you first need to go to your local bank or credit union branch. Follow these steps to make the process as painless as possible. Make sure that you’ve got the funds to cover the check before you go to the branch. Remember, your account will be immediately debited for those funds, or you’ll need to have enough cash on hand to cover the full amount. Make sure you’ve got the correct full name of the person or institution you’re paying. Make sure you’ve got your government-issued photo ID with you, such as a driver’s license or passport. If you’ve got an account at the institution you’re purchasing the cashier’s check from, make sure you have the required materials to access your account. You’ll most likely need to have your debit card and pin number, as well as a photo ID. If you don’t have a debit card, make sure you know your account number or social security number so the teller can look up your account. Wait in line at the branch location until it’s your turn to speak with a teller. Tell the teller that you’re interested in purchasing a cashier’s check. Provide the teller with your account number, or with the cash required to purchase the cashier’s check. Provide the teller with the name of the person or institution you’re paying. The teller will make sure that you’ve got enough money to cover the sum of the check. Then, the teller will draft the check and sign it, ensuring that it’s guaranteed by the bank. Cashier’s Checks Vs. Personal Checks Cashier’s checks are very different from personal checks, which is why they’re generally required for large purchases. Purchasing a cashier’s check means that your account will automatically be debited for the amount to cover the check. This debiting guarantees you’ve got enough money to cover the cost of the cashier’s check. When you write a personal check, your account isn’t debited until the check is deposited, so the check may bounce if you’ve spent money and no longer have the funds to cover the personal check’s amount. Because cashier’s checks are guaranteed, they often clear more quickly than personal checks. This means that the seller can have access to the funds for your purchase more quickly than waiting for a personal check to clear. The physical features of both checks are different. A cashier’s check is signed by a bank representative, which is part of guaranteeing the funds for the check are available. Likewise, cashier’s checks have distinguishing security features, such as watermarks, and are often written on special bond paper. Cashier’s Checks Vs. Money Orders A money order is very similar to a cashier’s check. When you purchase a money order, you’re also guaranteeing that you’ve got the funds to pay for your purchase. However, there are some key differences between the two forms of payment. A cashier’s check is issued by a bank or credit union. A money order isn’t. You can often purchase money orders at grocery stores, the post office, gas stations, or other places around town. Because you can purchase a money order from many different places, it may be more convenient to use a money order to guarantee your payment on a purchase. Money orders, however, have a maximum limit of money that you can send at one time. That means that you’ll need to use a cashier’s check for larger purchases that require you to transfer greater sums of money. Cashier’s Checks vs. ACH/Wire Transfers ACH/wire transfers are very similar to cashier’s checks, with several key differences. For both cashier’s checks and ACH/wire transfers, your account will be immediately debited when you initiate the transaction. This debiting guarantees that you’ve got the funds needed to cover the purchase. There are fees associated with ACH/wire transfers, just the same as there are fees associated with cashier’s checks. The fees associated with ACH/wire transfers are often higher than the cashier’s check fees and can depend on how quickly you want the money to be sent. When you make an ACH/wire transfer, you’re electronically transferring funds from your account to someone else’s. This means that you’ll automatically send funds to the seller, without them having to deposit a check. You can request a same day ACH/wire transfer for an added fee, which means that the money will instantly appear in the seller’s account. There are often limits for the amount of money you can send a person via wire or ACH transfer, depending on the type of transfer you’re doing, your bank’s policies, and how quickly you want to send the money. Review: Where and How to Get a Cashier's Check Cashier’s checks are considered a safe way to pay for large purchases because they’re guaranteed by a bank to have the funds to cover the sum of the check. You can get a cashier’s check from your local bank or credit union branch, which often requires paying a small fee.

How to Copyright a Book (in 10 Minutes Or Less)

How to Copyright a Book (in 10 Minutes Or Less) How To Copyright A Book: A Definitive Guide Want to know how to copyright a book you've written? That’s probably a smart idea. You don’t want this nightmarish scenario to occur a year down the road: you’re in a bookstore and you pick up a random novel. You notice that the dialogue sounds familiar. Upon further inspection, you realize that everything in this book is a dead ringer for your work - down to your character Mick, who now goes by Dick.Copyright is something authors are often curious about, though it’s so complex that few are eager to dip a toe into it. And it needn't  be an author’s first worry. However, if you're self-publishing a book, then the onus is on you to educate yourself on all aspects of the business - which includes protecting your intellectual property.Obligatory disclaimer: no-one at Reedsy is an attorney - this is by no means professional advice. But to make the topic easier for authors to unpack, we conducted research and spoke with practicing attorneys and have unmuddied the waters for you.Want to skip ahead? Check out our  explainer video or  download an infographic that spells out the process of copyright registration.What is copyright?Copyright is just that: the right to copy. When books are published, this right prevents others from replicating your work and selling it (for profit or otherwise) without your consent. jmason@copyrightcounselors.com.Sean Lynch is an intellectual property attorney who provides copyright and trademark advice to clients building businesses and brands. In addition, you can find Sean at slynchlaw.com and thesurflawyer.com.Henry Runge is an  Associate Director of UNeTecH. He protects scientists' inventions and works with entrepreneurs and creatives to develop business opportunities for intellectual property.Finally, to read about the topic straight from the source, visit the U.S. Copyright Office, the U.K. Intellectual Property Office, and the Australian Copyright Council websites.If you're in the finishing stages of completing a book? Check out our blog post that details the technical process of making a book.Any stories to share? Any more questions? Let us know below and we’ll answer all of them personally!

Somalia Outline Example | Topics and Well Written Essays - 250 words

Somalia - Outline Example The World Bank and USAID have been involved in the water supply sectors of the given countries to a large extent; hence they provide credible and reliable data on the water supply situations in these countries and thus justify the use of these sources. Water provision is a serious problem in most developing countries, and it is even a worse scenario in Somalia. This is a country that has been war-ravaged for the last two decades. To generate effective recommendations for water provision in Somalia, it is first necessary to establish the water supply situation, and then compare water provision systems that are considerably effective in countries with a similar situation like Somalia’s. This study explores the water provision solutions that have been implemented in Mozambique and Ghana and use them to generate recommendations for the water supply crisis in Somalia. According to the Advanced Blue Revolution Initiative, Somalia lacks an official water supply and sanitation system (ABRI 2009, p. 1). A large population obtains water from boreholes and shallow wells. The shallow wells are usually located near settlements, and the condition of this water is alarming due to nearly latrines seeping health hazards to ground water; cholera and diarrhoea outbreaks are common, and ABRI statistics indicate that less than 29% of the population has access to clean and sustainable water sources. It might be necessary to point out that the urban water supply system that existed in Somalia before degeneration into conflict was already constrained, poorly funded and mismanaged, and became inoperable after the civil crisis. This is the basis that informs the choice of comparison countries; Mozambique has an experience of nearly 20 years in war, and Ghana is muted as a model for other developing countries in efforts to curb most of their challenging problems. A brief background on Mozambique’s water provision system indicates that it was rendered useless