Tuesday, November 26, 2019
Momentous Decisions essays
Momentous Decisions essays A momentous decision is an important decision, or a decision of great consequence, that may affect a certain group of people to a certain extent, or it may affect the majority of people in many different ways. A momentous decision could also be an important decision that affects the majority of the population during that certain time period, or maybe affects the future populations to come. Another point of view of a momentous decision is a once in a lifetime event that happens, even if its in a fiction book. Examples of momentous decisions vary greatly on topics and time periods. A few examples are: the decision to drop the atomic bomb on Japan, Huckleberry Finns deciding he would rather go to Hell then betray his friend Jim, Rosa Parks decision not to move to the back of the bus, King Lears decision to divide his land, the famous court trial; Roe vs. Wade, the Dred Scott decision, Romeo and Juliets decision to be a couple, Solidaritys decision to resist the government of Poland, Aung San Suu Kyis decision to resist the government of Myanmar, Martin Luthers decision to nail his Ninety-five Theses to the door of the Wittenburg Cathedral, the decision of the New York Times to publish the Pentagon Papers, Richard Nixons decision to visit China, etc. As shown in the examples above, there were many momentous decisions during the past that have affected that certain time period, or might even affect present or future time periods as well. One of the many momentous decision that affected the mid19th century, 20th century, and probably many more centuries to come is the Dred Scott The Dred Scott Decision was an important ruling by the Supreme Court of the United States on the issue of slavery. The decision, which was made up in 1857, declared that African American, free or slave, could claim United States citizenship. It also st...
Saturday, November 23, 2019
Lockheed U-2 Spy Plane
Lockheed U-2 Spy Plane In the years immediately after World War II the US military relied on a variety of converted bombers and similar aircraft to collect strategic reconnaissance. With the rise of the Cold War, it was recognized that these aircraft were extremely vulnerable to Soviet air defense assets and as a result would be of limited use in determining Warsaw Pact intentions. As a result, it was determined that an aircraft capable of flying at 70,000 feet was needed as existing Soviet fighters and surface-to-air missiles were incapable to reaching that altitude. Proceeding under the codename Aquatone, the US Air Force issued contracts to Bell Aircraft, Fairchild, and Martin Aircraft to design a new reconnaissance aircraft capable of meeting their requirements. Learning of this, Lockheed turned to star engineer Clarence Kelly Johnson and asked his team to create a design of their own. Working in their own unit, known as the Skunk Works, Johnsons team produced a design known as the CL-282. This essentially married the fuselage of an earlier design, the F-104 Starfighter, with a large set of sailplane-like wings. Presenting the CL-282 to the USAF, Johnsons design was rejected. Despite this initial failure, the design soon received a reprieve from President Dwight D. Eisenhowers Technological Capabilities Panel. Overseen by James Killian of the Massachusetts Institute of Technology and including Edwin Land from Polaroid, this committee was tasked with exploring new intelligence weapons to protect the US from attack. While they initially concluded that satellites were the ideal approach for gathering intelligence, the necessary technology was still several years away. As a result, they decided that new spy plane was needed for the near future. Enlisting the aid of Robert Amory from the Central Intelligence Agency, they visited Lockheed to discuss the design of such an aircraft. Upon meeting with Johnson they were told that such design already existed and had been rejected by the USAF. Shown the CL-282, the group was impressed and recommended to CIA head Allen Dulles that the agency should fund the aircraft. After consulting with Eisenhower, the project moved forward and Lockheed was issued a $22.5 million contract for the aircraft. Design of the U-2 As the project moved forward, the design was re-designated U-2 with the U standing for the deliberately vague utility. Powered by the Pratt Whitney J57 turbojet engine, the U-2 was designed to achieve high altitude flight with a long range. As a result, the airframe was created to be extremely light. This, along with its glider-like characteristics, makes the U-2 a difficult aircraft to fly and one with a high stall speed relative to its maximum speed. Due these issues, the U-2 is difficult to land and requires chase car with another U-2 pilot to help talk the aircraft down. In effort to save weight, Johnson originally designed the U-2 to take off from a dolly and land on a skid. This approach was later dropped in favor of landing gear in a bicycle configuration with wheels located behind the cockpit and engine. To maintain balance during takeoff, auxiliary wheels known as pogos are installed under each wing. These drop away as the aircraft leaves the runway. Due to the U-2s operational altitude, pilots wear the equivalent of a spacesuit to maintain proper oxygen and pressure levels. Early U-2s carried a variety of sensors in the nose as well as cameras in a bay aft of the cockpit. U-2: Operation History The U-2 first flew on August 1, 1955 with Lockheed test pilot Tony LeVier at the controls. Testing continued and by spring 1956 the aircraft was ready for service. Reserving authorization for overflights of the Soviet Union, Eisenhower worked to reach an agreement with Nikita Khrushchev regarding aerial inspections. When this failed, he authorized the first U-2 missions that summer. Largely flying from Adana Air Base (renamed Incirlik AB on 28 February 1958) in Turkey, U-2s flown by CIA pilots entered Soviet airspace and collected invaluable intelligence. Though Soviet radar was able to track the overflights, neither their interceptors nor missiles could reach the U-2 at 70,000 ft. The success of the U-2 led the CIA and US military to press the White House for additional missions. Though Khrushchev protested the flights, he was unable to prove that the aircraft were American. Proceeding in complete secrecy, flights continued from Incirlik and forward bases in Pakistan for the next four years. On May 1, 1960, the U-2 was thrust into the public spotlight when one flown by Francis Gary Powers was shot down over Sverdlovsk by a surface-to-air missile. Captured, Powers became the center of the resulting U-2 Incident which embarrassed Eisenhower and effectively ended a summit meeting in Paris. The incident led to an acceleration of spy satellite technology. Remaining a key strategic asset, U-2 overflights of Cuba in 1962 provided the photographic evidence that precipitated the Cuban Missile Crisis. During the crisis, a U-2 flown by Major Rudolf Anderson, Jr. was shot down by Cuban air defenses. As surface-to-air missile technology improved, efforts were made to improve the aircraft and reduce its radar cross-section. This proved unsuccessful and work began on a new aircraft for conducting overflights of the Soviet Union. In the early 1960s, engineers also worked to develop aircraft carrier-capable variants (U-2G) to extend its range and flexibility. During the Vietnam War, U-2s were used for high-altitude reconnaissance missions over North Vietnam and flew from bases in South Vietnam and Thailand. In 1967, the aircraft was dramatically improved with the introduction of the U-2R. Approximately 40% larger than the original, the U-2R featured underwing pods and an improved range. This was joined in 1981 by a tactical reconnaissance version designated TR-1A. The introduction of this model re-started production of the aircraft to meet the USAFs needs. In the early 1990s, the U-2R fleet was upgraded to the U-2S standard which included improved engines. The U-2 has also seen service in a non-military role with NASA as the ER-2 research aircraft. Despite its advanced age, the U-2 remains in service due to its ability to perform direct flights to reconnaissance targets on short notice. Though there were efforts to retire the aircraft in 2006, it avoided this fate due to the lack of an aircraft with similar capabilities. In 2009, the USAF announced that it intended to retain the U-2 through 2014 while working to develop the unmanned RQ-4 Global Hawk as a replacement. Lockheed U-2S General Specifications Length:Ã 63 ft.Wingspan:Ã 103 ft.Height:Ã 16 ft.Wing Area:Ã 1,000 sq. ft.Empty Weight:Ã 14,300 lbs.Loaded Weight:Ã 40,000 lbs.Crew:Ã 1 Lockheed U-2S Performance Specifications Power Plant:Ã 1 Ãâ" General Electric F118-101 turbofanRange:Ã 6,405 milesMax Speed:Ã 500 mphCeiling:Ã 70,000 ft. Selected Sources FAS: U-2The CIA the U-2 Program: 1954-1974
Thursday, November 21, 2019
The processes needed to effectively plan, implement and manage the Essay
The processes needed to effectively plan, implement and manage the capacity of a manufacturing organisation - Essay Example Through manufacturing capacity development, organisations determine the most efficient methods for manufacturing through analysing different manufacturing processes, which can be utilised in manufacturing of similar products. The management of the manufacturing processes aims at increasing the manufacturing capacity for various manufacturing plants. Proper management of manufacturing processes would ensure maximum manufacturing capacity, through maintaining the highest achievable production with available resources. The manufacturing capacity should also be properly managed and controlled in order to achieve significant benefits (Ceryan and Koren, 2009). Proper utilisation of resources, therefore, becomes fundamental to effectiveness of manufacturing capacity, under varying business conditions. Consideration of the impacts of the variations could enable an organisation achieve desirable manufacturing capacities, with limited manufacturing resources. The manufacturing process Manufact uring generally refers to the processes involved in transforming raw materials into usable products (Grewal, 2011). The manufacturing process remains highly dependent on the economic systems existing within the manufacturing regions. Within free market economies, manufacturing aims at producing large quantities of products. Collectivist economies produce a manufacturing system aimed at supplying products based on government direction, while mixed economies are characterised by numerous governmental regulations on manufacturing processes. The manufacturing policy adopted by various plants therefore, remains highly dependent on the economic system under which the manufacturing process occurs. While economic systems affect the manufacturing design adopted by manufacturers, the manufacturing capacity remains independent of economic systems, within the manufacturing region. This capacity becomes solely dependent of the processes adopted within the manufacturing system. The processes are utilised in determining the efficient methods which can effectively use limited resources and achieve immense production outcomes. The manufacturing process adopted could be utilised in development of the plan being adopted to ensure maximum return on investment. The manufacturing process normally defines the technology being adopted in converting the various raw materials into consumable products. The process involves the application of various technological methods and systems utilised in converting raw materials into consumable products (Sweeney, Williams and Camm, 2009). In choosing the manufacturing process, the human capital capacity and other resources become fundamental considerations, for decision-makers in ensuring efficiency of manufacturing. Proper utilisation of available resources could result in increased output while utilising similar manufacturing methods, and having equal resources. The manufacturing capacity seeks to establish the highest production level achievab le through utilisation of available resources. The output remains a significant determinant of manufacturing capacity for a specified manufacturing plant. Planning The planning process for manufacturing capacity remains essential in establishing various methods which could be utilised to ensure maximum output from available resources. The optimum capacity building must be established during the planning process (Grewal, 2011). During this stage, the fundamental issues considered include the amount of capacity required and the type of systems which should be adopted. In determining the required capacity, the market target for the goods becomes essential. The decision-makers must have knowledge of the market for the products. Fast-moving consumer goods, for example, would involve
Tuesday, November 19, 2019
Bleaching in dentistry Essay Example | Topics and Well Written Essays - 1250 words
Bleaching in dentistry - Essay Example One may either opt for a treatment at the dentistââ¬â¢s office or use an OTC treatment tray in-house. Research studies have shown the there is not much difference between the two. Ghalili et al (2014) conducted a study to see the efficacy of novel in-house bleaching procedure using OTC bleaching tray system. They aimed to study the change in color, gingival irritation and tooth sensitivity in patients who opt for undergoing in-house bleaching process. For the study 43 participants within the age group of 18 -65 years and without teeth restorations were selected. Post exclusion, color shade, sensitivity and gingival measurement were done. The participants were given at-home bleaching systems containing 9% HP and treatment was done for 5 days. Assessment was done after treatment on day and day 5. It was seen that after day 1 of treatment significant color change was seen in all but only7 participants complained of discomfort while 2 suffered from buccal mucosal blanching. After Day 5, radical change in color was seen and 82% did not report any pain or discomfort at all. The study thereby concluded that home systems were effective on all in terms of restoring teeth whiteness however people should consult a dentist prior using such systems because some may suffer from discomfort or pain. Some studies have tried to understand if the bleaching mechanism of these agents could be enhanced with the help of energy supplied through heat or radiation. Cardoso et al (2012) conducted an experiment to measure the efficacy of bleaching agents activated by ultrasonic waves. Bleaching agents such as hydrogen peroxide are extremely efficient in producing free radicals which degrade the long chains pigments that make the tooth appear darker. Research showed that if these agents could be supplied with heat energy they would become much more efficient in breaking down teeth pigmentation to make the teeth appear lighter in color. In
Sunday, November 17, 2019
American Airlines Flight Case Study Essay Example for Free
American Airlines Flight Case Study Essay Cause(s) of Accident The National Transportation Safety Board (NTSB) determined that the probable cause of this accident was the asymmetrical stall and the ensuing roll of the aircraft because of the uncommanded retraction of the left wing outboard leading edge slats and the loss of stall warning and slat disagreement indication systems resulting from maintenance-induced damage leading to the separation of the number 1 engine and pylon assembly at a critical point during takeoff. The separation resulted from damage by improper maintenance procedures which let to failure of the pylon structure. Structural and Mechanical Factors After a thorough examination of the pylon attachment points, fractures and deformations at the separation points in the forward bulkhead and thrust link were all characteristic of overload. Testimony indicated the forklift was not powered for a period of time because it ran out of fuel. Post accident forklift tests showed that under these conditions leakage would allow a drift down of 1 inch in 30 minutes. Movement of 0.4 inch or less would produce a 7 inch fracture at the flange. Contributing Factors The design and interrelationship of the essential systems as they were affected by the structural loss of the pylon contributed to this accident. Flight control, hydraulic, and electrical systems in the aircraft were all affected by the pylon separation. When the engine separated from the pylon hydraulic pressure and fluid were lost and not recoverable. The separation also severed the electrical wire bundles inside the pylon which included the main feeder circuits between the generator and the No 1 a.c. generator bus. The flight crew was unable to restore power to the aircraft. The failure of engineering to ascertain the damage-inducing potential of a procedure which deviated from the manufacturerââ¬â¢s recommended procedure was another contributed factor. The procedure in question was the removal of the pylon attaching hardware and the positioning of the forklift. As a result, maintenance personnel altered the sequence of hardware removal. Investigation Board Findings The engine and pylon assembly separated either at or immediately after liftoff. The flight crew was committed to continue the takeoff. The aft end of the pylon assembly started to separate in the forward flange of the aircraft bulkhead. The structural separation of the pylon was caused by a complete failure of the forward flange of the aft bulkhead after its residual strength had been critically reduced by the fracture and subsequent service life. The length of the overload fracture and fatigue cracking was about 13 inches. All electrical power to the number 1 a.c. generator bus and number 1 d.c. bus was lost after the pylon separated. The captains flight director instrument, stall warning system, and slat disagreement systems were rendered inoperative. Power was never restored. The number 1 hydraulic system was lost at pylon separation. Hydraulic lines and follow up cables of the drive actuator for the left wingââ¬â¢s outboard leading edge slat were severed by the separation of the pylon and the left wingââ¬â¢s outboard slats retracted during climb out. The retraction of the slats caused an asymmetric stall and subsequent loss of control of the aircraft. The pylon was damaged during maintenance performed on March 29 and 30, 1979 at the American Airlines Maintenance Facility in Tulsa, Oklahoma. Engineering personnel developed procedures for removing the pylon and engine that deviated from manufacturers procedures, and did so without performing proper tests. Recommendations The NTSB recommended that the Federal Aviation Administration (FAA) issue immediately an emergency Airworthiness Directive to inspect all pylon attach points by approved inspection methods. Issue an Airworthiness Directive to require and immediate inspection of all DC-10 aircraft in which an engine pylon assembly had been removed and reinstalled for damage to the wing-mounted pylon aft bulkhead, including its forward flange and the attaching spar web and fasteners. Issue a Maintenance Alert Bulletin directing FAA maintenance inspectors to contact their assigned carriers and advise them to immediately discontinue the practice of lowering and raising the pylon with the engine still attached and adhere to recommended manufacturer procedures. Outcomes After a series of post accident inspections disclosed damaged aft bulkheads in the wing to the engine pylons, the Administrator of the FAA issued an Emergency Order of Suspension on June 6, 1979, which suspended the DC-10 series aircraft type certificate until such time as it can be ascertained that the DC-10 aircraft meets the certification criteria of Part 25 of the FAR and is eligible for a Type Certificate. Twenty days later the FAA issued Special Federal Aviation Regulation 40 which prohibited the operation of any model DC-10 aircraft within the airspace of the United States. On July 13, 1979, after a series of formal investigations, the Administrator found that the DC-10 met the requirements for issuance of a type certificate. And the Emergency Order of Suspension was terminated. In November 1979 the FAA fined American Airlines $500,000 for using faulty maintenance procedures on its DC-10 aircraft by using forklifts to mate the complete engine/pylon assembly with the wing attachment points. Continental Airlines was fined $100,000 on a similar charge. References Aviation Safety Network. Retrieved October 20, 2010, from http://aviation-safety.net/database/record.php?id=19790525-2 NTSB. (1979). Aircraft Accident Report, American Airlines, Inc. Flight 191. Retrieved October 20, 2010, from http://www.airdisaster.com/reports/ntsb/AAR79-17.pdf
Thursday, November 14, 2019
Oscar De La Hoya :: essays research papers
Oscar De La Hoya is a famous professional boxer. He is known all over the world for his looks, talent in the ring and his great sportsmanship. He is one of the best fighters in the field of boxing and a good role model for young children in the world today. PERSONAL Oscar De La Hoya lives and was born in East Los Angeles, California on February 4, 1973. His parents names are Joel, a former professional boxer from Durango, Mexico, and Dona Cecilia De La Hoya. His mother, Cecilia, passed away in her late thirties when breast cancer attacked her body. Oscar is the youngest boy in the family. He has an older brother name Joel, Jr., and a little sister name Maria. As a boy, Oscar never did like fighting or any physical sports. (Oscar, 1) He never looked like a type of person that would like those kind of things. Everytime he got into a fight with another kid, he always ran immediately to his house and cried. Don Joel, his father did not think much of it. For the fifth or sixth time, however, Don Joel started to believe that his son had a problem because, not fighting back when attacked was hardly a Mexican custom. So he decided that the best medicine for his disgrace, within the family, was to bring Oscar to visit a boxing gym. After all, Don Joel himself got the same medicine from his father, who had boxed in Mexico in the amateur ranks in the 1930's. (Kawakami, 18) BOXING CAREER Oscar first saw boxing gloves when he was five years old. From then on he was a boxer all his life. He started winning awards and trophies when he was eleven years old. Oscar De La Hoya never went to college, he finished high school and focused all his energy on his boxing. As an amateur, De La Hoya spent the early mornings running through the streets of East Los Angeles to train. Oscar De La Hoya, also known as " Golden Boy", first captured America's hearts by becoming the only American boxer to win an Olympic Gold Medal at the 1992 summer games. Oscar got his nickname by publicist John Beyrooty introducing him with the name "Golden Boy" at a press conference. After a few months Oscar won America's only gold medal. Oscar's professional career hit the stratosphere in June 11, 1994. (Hoffer, 56) He sky-rocketed through the professional ranks becoming the undisputed, undefeated lightweight champion of the world in just his twenty fights. De La Hoya, earned $9 million dollars for the bout and preserved his position as boxing non--heavy weight superstar. Oscar De La Hoya :: essays research papers Oscar De La Hoya is a famous professional boxer. He is known all over the world for his looks, talent in the ring and his great sportsmanship. He is one of the best fighters in the field of boxing and a good role model for young children in the world today. PERSONAL Oscar De La Hoya lives and was born in East Los Angeles, California on February 4, 1973. His parents names are Joel, a former professional boxer from Durango, Mexico, and Dona Cecilia De La Hoya. His mother, Cecilia, passed away in her late thirties when breast cancer attacked her body. Oscar is the youngest boy in the family. He has an older brother name Joel, Jr., and a little sister name Maria. As a boy, Oscar never did like fighting or any physical sports. (Oscar, 1) He never looked like a type of person that would like those kind of things. Everytime he got into a fight with another kid, he always ran immediately to his house and cried. Don Joel, his father did not think much of it. For the fifth or sixth time, however, Don Joel started to believe that his son had a problem because, not fighting back when attacked was hardly a Mexican custom. So he decided that the best medicine for his disgrace, within the family, was to bring Oscar to visit a boxing gym. After all, Don Joel himself got the same medicine from his father, who had boxed in Mexico in the amateur ranks in the 1930's. (Kawakami, 18) BOXING CAREER Oscar first saw boxing gloves when he was five years old. From then on he was a boxer all his life. He started winning awards and trophies when he was eleven years old. Oscar De La Hoya never went to college, he finished high school and focused all his energy on his boxing. As an amateur, De La Hoya spent the early mornings running through the streets of East Los Angeles to train. Oscar De La Hoya, also known as " Golden Boy", first captured America's hearts by becoming the only American boxer to win an Olympic Gold Medal at the 1992 summer games. Oscar got his nickname by publicist John Beyrooty introducing him with the name "Golden Boy" at a press conference. After a few months Oscar won America's only gold medal. Oscar's professional career hit the stratosphere in June 11, 1994. (Hoffer, 56) He sky-rocketed through the professional ranks becoming the undisputed, undefeated lightweight champion of the world in just his twenty fights. De La Hoya, earned $9 million dollars for the bout and preserved his position as boxing non--heavy weight superstar.
Tuesday, November 12, 2019
Mcq International Payments
1. In the case of a ââ¬Å"sight draftâ⬠A. the draft acceptance is after the shipment of goods B. the draft is presented to the buyer for acceptance when the shipment has been made C. the risk for the importer consists in the disposal of the unpaid goods D. the goods are available to the buyer before payment 2. It is not a bank draft A. promissory note B. checks C. money orders D. bill of exchange E. documentary collections 3. B/E represents: A. unconditional order in writing to pay a specified amount of money to a specified person or to the bearer, upon presentation of the bill at a specified future date B. n order given to the bank in order to pay a specific amount to a person from the company current account against the presented bill C. an order given by a person to its bank in order to pay a specific amount directly in the beneficiaryââ¬â¢s account D. a written promise to pay a determinate sum of money made between two parties 4. This is not a benefit for the importer w hen he use a payment based on the letter of credit: A. reliance on issuing bankââ¬â¢s credit rather than buyerââ¬â¢s B. documentary evidence that the ordered goods have been shipped on time C. payment deferred until goods are shipped and documents presented D. ssurance that necessary clearance documents will be provided 5. A clean L/C means that: A. the L/C can not be revoked without the specific permission of all parties involved, including the exporter B. the L/C is issued by a bank and confirmed by another, obligating both banks to honor drafts drawn in compliance C. the place where the payment is realized by the exporter bank D. the documents are presented without other additional documents or notifications 6. In the case of open account payment A. the goods available to buyers before payment B. the risk belongs to the importerC. the goods are shipped to a buyer with a strong guarantee of payment D. the goods are available to buyers after payment 7. ââ¬Å"Consignmentâ⬠means that: A. the exporter retains actual title to the goods that are shipped to the importer B. an order given to a bank in order to pay a specific amount to a person from the company current account C. the goods will not be shipped until the buyer has paid the seller D. the goods are shipped to a buyer without guarantee of payment 8. The chief advantage in case of advance payment is: A. no credit extension required B. apital tied up until sales; must establish distributorââ¬â¢s creditworthiness need political risk insurance in some countries; increased risk from currency controls C. if customer does not or cannot accept goods, goods remain at port of entry and no payment is due D. lowers customer resistance by allowing extended payment after receipt of goods 9. The difference between a P-note and B/E consists on: A. the amount of money is well determined B. the maker of a P-note to personally pay the payee rather than ordering a third party to do so C. the P-note is more se cure than a B/E D. he issuer of a P-note is the exporter 10. The highest risk is in case of: A. sight draft B. time draft C. cash in advance D. revocable L/C E. open account 11. International payments A. require common payment procedures B. are always guaranteed by a different bank C. are less risky D. are more complex than local payments 12. Open account payments mean that: A. the exporter retains actual title to the goods that are shipped to the importer B. the goods will not be shipped until the buyer has paid the seller C. the goods are shipped to a buyer without guarantee of payment D. n order given to a bank in order to pay a specific amount to a person from the company current account 13. In the case of a letter of credit this is not an advantage for the exporter A. Reliance on issuing bankââ¬â¢s credit rather than buyerââ¬â¢s B. Payment protection C. Rapid, local source of repayment, if payable at a local bank D. Payment deferred until goods are shipped and documents p resented (use of funds) 14. ââ¬Å"Checkâ⬠means that A. the exporter retains actual title to the goods that are shipped to the importer B. the goods are shipped to a buyer without guarantee of payment C. n order given to a bank in order to pay a specific amount to a person from the company current account D. the goods will not be shipped until the buyer has paid the seller 15. This is not a problem when we pay using a letter of credit A. Stipulations concerning freight cost are unacceptable B. Price is insufficient due to Interest Rate C. Unexpected quantity of product D. Description of product insufficient or too detailed E. Shipping schedule is not met 16. The Red-Clause Letter of Credit it is used when A. the exporter, as beneficiary, offers its credit as security in order to finance the opening of a second credit B. beneficiary has the right to instruct the paying bank to make credit available to one or more secondary beneficiaries C. the bank on whom the draft is drawn co mmits to pay the face amount at maturity by stamping ââ¬Å"Acceptedâ⬠across the draft D. in case of an advance payment in favor of an exporter 17. The lowest risk is in case of A. cash in advance B. open account C. sight draft D. revocable letter of credit E. time draft 18. In the case of Documents against Acceptance A. the bank issues a commitment for a stated time period to pay a beneficiary a stated amount of money B. he buyer may only receives the title and other documents after paying for the goods C. the buyer signs a time draft for payment at a later date D. the buyer may receive the title and other documents after signing a time draft promising to pay at a later date 19. In international payments are not used A. payment instruments B. non ââ¬â cash payments C. cash payments D. balanced payments E. payment techniques 20. Stand-by Letter of Credit is used A. shipping schedule is not met B. stipulations concerning freight cost are unacceptable C. when the export pric e is insufficient due to FX rate changes D. nly if the importer didnââ¬â¢t fulfill itââ¬â¢s obligations E. only if the exporter didnââ¬â¢t fulfill itââ¬â¢s obligations 21. ââ¬Å"Cash in advanceâ⬠means that A. the goods will not be shipped until the buyer has paid the seller B. the exporter retains actual title to the goods that are shipped to the importer C. an order given to a bank in order to pay a specific amount to a person from the company current account D. the goods are shipped to a buyer without guarantee of payment 22. In the case of Documents against Payment A. the bank issues a commitment for a stated time period to pay a beneficiary a stated amount of money B. he buyer may receive the title and other documents after signing a time draft promising to pay at a later date C. the buyer may only receives the title and other documents after paying for the goods D. the buyer signs a time draft for payment at a later date 23. ââ¬Å"Money orderâ⬠represen ts A. is a written promise to pay a determinate sum of money made between two parties B. an order given to a bank in order to pay a specific amount to a person from the company current account C. an order given by a person to its bank in order to pay a specific amount directly in the beneficiaryââ¬â¢s account D. nconditional order in writing to pay a specified amount of money to a specified person or to the bearer, upon presentation of the bill or at a specified future date 24. It is not a document required in case of a letter of credit A. Bills of Lading B. Income statement C. Commercial Invoice D. Packing List E. Certificate of Origin 25. In the case of a ââ¬Å"time draftâ⬠A. the goods are available to the buyer after payment B. the draft is accepted by buyer in the delivery moment of goods C. the time of payment is after the maturity of draft D. the draft acceptance is after the shipment of goods
Sunday, November 10, 2019
Jose Rizal
Definition of Measurement Measurementà is the process or the result of determining theà ratioà of aà physical quantity, such as a length, time, temperature etc. , to a unit of measurement, such as the meter, second or degree Celsius. The science of measurement is calledà metrology. The English wordà measurementà originates from theà Latinà mensuraà and the verbà metirià through theà Middle Frenchà mesure. Reference: http://en. wikipedia. org/wiki/Measurement Measurement Quantities *Basic FundamentalQuantity name/s| (Common) Quantity symbol/s| SI unit name| SI unit symbol| Dimension symbol| Length, width, height, depth| a, b, c, d, h, l, r, s, w, x, y, z| metre| m| [L]| Time| t| second| s| [T]| Mass| m| kilogram| kg| [M]| Temperature| T, ? | kelvin| K| [? ]| Amount ofà substance, number of moles| n| mole| mol| [N]| Electric current| i, I| ampere| A| [I]| Luminous intensity| Iv| candela| Cd| [J]| Plane angle| ? , ? , ? , ? , ? , ? | radian| rad| dimensionl ess| Solid angle| ? , ? | steradian| sr| dimensionless| Derived Quantities Space Common) Quantity name/s| (Common) Quantity symbol| SI unit| Dimension| (Spatial)à position (vector)| r,à R,à a,à d| m| [L]| Angular position, angle of rotation (can be treated as vector or scalar)| ? ,à ? | rad| dimensionless| Area, cross-section| A, S, ? | m2| [L]2| Vector areaà (Magnitude of surface area, directed normal totangentialà plane of surface)| | m2| [L]2| Volume| ? , V| m3| [L]3| Quantity| Typical symbols| Definition| Meaning, usage| Dimension| Quantity| q| q| Amount of a property| [q]| Rate of change of quantity,à Time derivative| | | Rate of change of property with respect to time| [q] [T]? 1| Quantity spatial density| ? volume density (nà = 3),à ? = surface density (nà = 2),à ? = linear density (nà = 1)No common symbol forà n-space density, hereà ? nà is used. | | Amount of property per unit n-space(length, area, volume or higher dimensions)| [q][L]-n| Spec ific quantity| qm| | Amount of property per unit mass| [q][L]-n| Molar quantity| qn| | Amount of property per mole of substance| [q][L]-n| Quantity gradient (ifà qà is aà scalar field. | | | Rate of change of property with respect to position| [q] [L]? 1| Spectral quantity (for EM waves)| qv, q? , q? | Two definitions are used, for frequency and wavelength: | Amount of property per unit wavelength or frequency. [q][L]? 1à (q? )[q][T] (q? )| Flux, flow (synonymous)| ? F,à F| Two definitions are used;Transport mechanics,à nuclear physics/particle physics: Vector field: | Flow of a property though a cross-section/surface boundary. | [q] [T]? 1à [L]? 2, [F] [L]2| Flux density| F| | Flow of a property though a cross-section/surface boundary per unit cross-section/surface area| [F]| Current| i, I| | Rate of flow of property through a crosssection/ surface boundary| [q] [T]? 1| Current density (sometimes called flux density in transport mechanics)| j, J| | Rate of flow of pro perty per unit cross-section/surface area| [q] [T]? 1à [L]? | Reference: http://en. wikipedia. org/wiki/Physical_quantity#General_derived_quantities http://en. wikipedia. org/wiki/Physical_quantity#Base_quantities System of Units Unit name| Unit symbol| Quantity| Definition (Incomplete)| Dimension symbol| metre| m| length| * Originalà (1793):à 1? 10000000à of the meridian through Paris between the North Pole and the EquatorFG * Currentà (1983): The distance travelled by light in vacuum inà 1? 299792458à of a second| L| kilogram[note 1]| kg| mass| * Originalà (1793): Theà graveà was defined as being the weight [mass] of one cubic decimetre of pure water at its freezing point.FG * Currentà (1889): The mass of the International Prototype Kilogram| M| second| s| time| * Originalà (Medieval):à 1? 86400à of a day * Currentà (1967): The duration ofà 9 192 631 770à periods of the radiation corresponding to the transition between the two hyperfine levels of the ground state of the caesium 133 atom| T| ampere| A| electric current| * Originalà (1881): A tenth of the electromagnetic CGS unit of current. [The [CGS] emu unit of current is that current, flowing in an arc 1à cm long of a circle 1à cm in radius creates a field of one oersted at the centre. 37]]. IEC * Currentà (1946): The constant current which, if maintained in two straight parallel conductors of infinite length, of negligible circular cross-section, and placed 1à m apart in vacuum, would produce between these conductors a force equal to 2 x 10-7à newton per metre of length| I| kelvin| K| thermodynamic temperature| * Originalà (1743): Theà centigrade scaleà is obtained by assigning 0à ° to the freezing point of water and 100à ° to the boiling point of water. * Currentà (1967): The fraction 1/273. 16 of the thermodynamic temperature of the triple point of water| ? mole| mol| amount of substance| * Originalà (1900): The molecular weight of a substance in mass grams. ICAW * Currentà (1967): The amount of substance of a system which contains as many elementary entities as there are atoms in 0. 012 kilogram of carbon 12. [note 2]| N| candela| cd| luminous intensity| * Originalà (1946):The value of the new candle is such that the brightness of the full radiator at the temperature of solidification of platinum is 60 new candles per square centimetre * Currentà (1979): The luminous intensity, in a given direction, of a source that emits monochromatic radiation of frequency 540à ? 012à hertz and that has a radiant intensity in that direction of 1/683 watt per steradian. | J| Reference: http://en. wikipedia. org/wiki/International_System_of_Units Scientific Notation Scientific notationà (more commonly known asà standard form) is a way of writing numbers that are too big or too small to be conveniently written in decimal form. Scientific notation has a number of useful properties and is commonly used in calculators and by scie ntists, mathematicians and engineers.In scientific notation all numbers are written in the form of (aà times ten raised to the power ofà b), where theà exponentà bà is anà integer, and theà coefficientà aà is anyà real numberà (however, seeà normalized notationà below), called theà significandà orà mantissa. The term ââ¬Å"mantissaâ⬠may cause confusion, however, because it can also refer to theà fractionalà part of the commonà logarithm. If the number is negative then a minus sign precedesà aà (as in ordinary decimal notation). ââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬â-Converting numbers Converting a number in these cases means to either convert the number into scientific notation form, convert it back into decimal form or to change the exponent part of the equation. None of these alter the actual number, only how it's expressed. Decimal to scientif ic First, move the decimal separator point the required amount,à n, to make the number's value within a desired range, between 1 and 10 for normalized notation. If the decimal was moved to the left, appendà xà 10n; to the right,à xà 10-n.To represent the number 1,230,400 in normalized scientific notation, the decimal separator would be moved 6 digits to the left andà xà 106à appended, resulting in1. 2304? 106. The number -0. 004à 0321 would have its decimal separator shifted 3 digits to the right instead of the left and yieldà ? 4. 0321? 10? 3à as a result. Scientific to decimal Converting a number from scientific notation to decimal notation, first remove theà x 10nà on the end, then shift the decimal separatorà nà digits to the right (positiveà n) or left (negativeà n). The number1. 2304? 06à would have its decimal separator shifted 6 digits to the right and become 1 230 400, whileà ? 4. 0321? 10? 3à would have its decimal separator moved 3 digits to the left and be-0. 0040321. Exponential Conversion between different scientific notation representations of the same number with different exponential values is achieved by performing opposite operations of multiplication or division by a power of ten on the significand and an subtraction or addition of one on the exponent part. The decimal separator in the significand is shiftedà xà places to the left (or right) and 1xà is added to (subtracted from) the exponent, as shown below. . 234? 103à =à 12. 34? 102à =à 123. 4? 101à = 1234 Significant Figures Theà significant figuresà (also known asà significant digits, and often shortened toà sig figs) of a number are thoseà digitsà that carry meaning contributing to itsà precision. This includes all digitsexcept: * leadingà andà trailing zerosà which are merely placeholders to indicate the scale of the number. * spurious digits introduced, for example, by calculations carried out to greater prec ision than that of the original data, or measurements reported to a greater precision than the equipment supports.Inaccuracy of a measuring device does not affect the number of significant figures in a measurement made using that device, although it does affect the accuracy. A measurement made using a plastic ruler that has been left out in the sun or a beaker that unbeknownst to the technician has a few glass beads at the bottom has the same number of significant figures as a significantly different measurement of the same physical object made using an unaltered ruler or beaker. The number of significant figures reflects the device's precision, but not itsà accuracy.The basic concept of significant figures is often used in connection withà rounding. Rounding to significant figures is a more general-purpose technique than rounding toà nà decimal places, since it handles numbers of different scales in a uniform way. For example, the population of a city might only be known to the nearest thousand and be stated as 52,000, while the population of a country might only be known to the nearest million and be stated as 52,000,000. The former might be in error by hundreds, and the latter might be in error by hundreds of thousands, but both have two significant figures (5 and 2).This reflects the fact that the significance of the error (its likely size relative to the size of the quantity being measured) is the same in both cases. Computer representations ofà floating point numbersà typically use a form of rounding to significant figures, but withà binary numbers. The number of correct significant figures is closely related to the notion ofà relative errorà (which has the advantage of being a more accurate measure of precision, and is independent of the radix of the number system used).The term ââ¬Å"significant figuresâ⬠can also refer to a crude form of error representation based around significant-digit rounding; for this use, seeà signific ance arithmetic. The rules for identifying significant figures when writing or interpreting numbers are as follows:à * All non-zero digits are considered significant. For example, 91 has two significant figures (9 and 1), while 123. 45 has five significant figures (1, 2, 3, 4 and 5). * Zeros appearing anywhere between two non-zero digits are significant. Example: 101. 12 has five significant figures: 1, 0, 1, 1 and 2. Leading zeros are not significant. For example, 0. 00052 has two significant figures: 5 and 2. * Trailing zeros in a number containing a decimal point are significant. For example, 12. 2300 has six significant figures: 1, 2, 2, 3, 0 and 0. The number 0. 000122300 still has only six significant figures (the zeros before the 1 are not significant). In addition, 120. 00 has five significant figures since it has three trailing zeros. This convention clarifies the precision of such numbers; for example, if a measurement precise to four decimal places (0. 001) is given as 12. 23 then it might be understood that only two decimal places of precision are available. Stating the result as 12. 2300 makes clear that it is precise to four decimal places (in this case, six significant figures). * The significance of trailing zeros in a number not containing a decimal point can be ambiguous. For example, it may not always be clear if a number like 1300 is precise to the nearest unit (and just happens coincidentally to be an exact multiple of a hundred) or if it is only shown to the nearest hundred due to rounding or uncertainty.Various conventions exist to address this issue: * Aà barà may be placed over the last significant figure; any trailing zeros following this are insignificant. For example, 1300 has three significant figures (and hence indicates that the number is precise to the nearest ten). * The last significant figure of a number may be underlined; for example, ââ¬Å"2000â⬠has two significant figures. * A decimal point may be placed afte r the number; for example ââ¬Å"100. â⬠indicates specifically that three significant figures are meant. * In the combination of a number and aà unit of measurementà the ambiguity can be voided by choosing a suitableà unit prefix. For example, the number of significant figures in a mass specified as 1300à g is ambiguous, while in a mass of 13à h? g or 1. 3à kg it is not. Rounding Off Numbers Roundingà a numerical value means replacing it by another value that is approximately equal but has a shorter, simpler, or more explicit representation; for example, replacing ? 23. 4476 with ? 23. 45, or the fraction 312/937 with 1/3, or the expression v2 with 1. 414. Rounding is often done on purpose to obtain a value that is easier to write and handle than the original.It may be done also to indicate the accuracy of a computed number; for example, a quantity that was computed as 123,456 but is known to be accurate only to within a few hundred units is better stated as â⠬Å"about 123,500. â⬠On the other hand, rounding introduces someà round-off errorà in the result. Rounding is almost unavoidable in many computations ââ¬â especially when dividing two numbers inà integerà orà fixed-point arithmetic; when computing mathematical functions such asà square roots,à logarithms, andà sines; or when using aà floating pointà representation with a fixed number of significant digits.In a sequence of calculations, these rounding errors generally accumulate, and in certainà ill-conditionedà cases they may make the result meaningless. Accurate rounding ofà transcendental mathematical functionsà is difficult because the number of extra digits that need to be calculated to resolve whether to round up or down cannot be known in advance. This problem is known as ââ¬Å"the table-maker's dilemmaâ⬠. Rounding has many similarities to theà quantizationà that occurs whenà physical quantitiesà must be encoded by numbers orà digital signals. Typical rounding problems are pproximating an irrational number by a fraction, e. g. ,à ? by 22/7; approximating a fraction with periodic decimal expansion by a finite decimal fraction, e. g. , 5/3 by 1. 6667; replacing aà rational numberà by a fraction with smaller numerator and denominator, e. g. , 3122/9417 by 1/3; replacing a fractionalà decimal numberà by one with fewer digits, e. g. , 2. 1784 dollars by 2. 18 dollars; replacing a decimalà integerà by an integer with more trailing zeros, e. g. , 23,217 people by 23,200 people; or, in general, replacing a value by a multiple of a specified amount, e. . , 27. 2 seconds by 30 seconds (a multiple of 15). Conversion of Units Process The process of conversion depends on the specific situation and the intended purpose. This may be governed by regulation,à contract,à Technical specificationsà or other publishedà standards. Engineering judgment may include such factors as: * Theà precision and accuracyà of measurement and the associatedà uncertainty of measurement * The statisticalà confidence intervalà orà tolerance intervalà of the initial measurement * The number ofà significant figuresà of the measurement The intended use of the measurement including theà engineering tolerances Some conversions from one system of units to another need to be exact, without increasing or decreasing the precision of the first measurement. This is sometimes calledà soft conversion. It does not involve changing the physical configuration of the item being measured. By contrast, aà hard conversionà or anà adaptive conversionà may not be exactly equivalent. It changes the measurement to convenient and workable numbers and units in the new system. It sometimes involves a slightly different configuration, or size substitution, of the item.Nominal valuesà are sometimes allowed and used. Multiplication factors Conversion between units in theà metric systemà can be discerned by theirà prefixesà (for example, 1 kilogram = 1000à grams, 1 milligram = 0. 001à grams) and are thus not listed in this article. Exceptions are made if the unit is commonly known by another name (for example, 1 micron = 10? 6à metre). Table ordering Within each table, the units are listed alphabetically, and theà SIà units (base or derived) are highlighted. ââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬âââ¬â- Tables of conversion factorsThis article gives lists of conversion factors for each of a number of physical quantities, which are listed in the index. For each physical quantity, a number of different units (some only of historical interest) are shown and expressed in terms of the corresponding SI unit. Legend| Symbol| Definition| ?| exactly equal to| ?| approximately equal to| digits| indicates thatà digitsà repeat infinitely (e. g. 8. 294369à corresponds toà 8. 29 4369369369369â⬠¦)| (H)| of chiefly historical interest| ASSIGNMENT IN PHYSICS I-LEC Submitted by: Balagtas, Glen Paulo R. BS Marine Transportation-I Submitted to: Mrs. Elizabeth Gabriel Professor in Physics-Lec Jose Rizal Write a reflection paper tracing the development of Rizal as a reformist who began to work for changes in his country using: a) one (1) work from Rizal As A Reformist b) the Noli Me Tangere Show also the significance of these works on Filipino society today and how it can change todayââ¬â¢s trends. Pag-ibig sa Tinubuang Lupa by Dr. Jose P. Rizal (keyword: love of country) Rizalââ¬â¢s Pag-ibig sa Tinubuang Lupa was written in 1882 when Rizal was 21 years old.Rizal was away in Spain for only a month, which may have inspired him to write this literature because he misses his homeland. This work of Rizal is a very significant work of Rizal as a reformist because it expresses his dear love for his native land. As he wrote this literature and felt his love for his country, he builds the foundation of him being a reformist because of the drive to fight for change. Through Pag-ibig sa Tinubuang Lupa, Rizal realizes how much he loves his country and that it has fallen into the wrong gov ernance and that this needs to be changed.Through the lines ââ¬Å"Maging anuman nga ang kalagayan natin, ay nararapat nating mahalin siya at walang ibang bagay na dapat naisin tayo kundi ang kagalingan niya (referring to Philippines)â⬠Rizal explicitly reveals his love for the country and expresses the importance to love and work for the betterment of our homeland. It can also be seen in these lines that even if he is out of the country studying, he will do his part as a Filipino to fight for the rights of every Filipino.Today, this work of Rizal may serve as a reminder for all the people in this country that being a Filipino calls for a duty to serve our native land and fellow citizens. If though Rizalââ¬â¢s work, Filipinos realize their duty as a citizen and love for their country, the Philippines would be a better place to live in and it would be easy to manipulate the society towards a progressive nation. Noli Me Tangere by Dr. Jose P. Rizal Rizalââ¬â¢s well-known no vel entitled Noli Me Tangere is one of his works that clearly expresses Rizal as a reformist.Rizal finished his first novel when he was at the age of 26 years old. The hero was penniless, good thanks to his friend Maximo Viola who supported him and shouldered the publication of this novel, the reason why we have a copy in our hands. In this novel, Rizal conveys his belief that education is very important and is an effective tool for reform in the country. Rizal was very brave to depict the issues in the Philippines such as corruption and oppression through the characters and storyline in his novel.The Noli Me Tangere was a very expressive move of Rizal to start the campaign for liberal reform for the country. In this book, Rizal shares his personal experiences at the harsh hands of the Spaniards, as well as experiences shared by his loved ones. Rizalââ¬â¢s brave soul to publish a novel containing these experiences and lessons, encourages Filipinos to be continuous is learning as he did. It again, boils down to his belief that education will strengthen oneââ¬â¢s principles in life and even open your world to the experiences of other people.Until today, Noli Me Tangere and its sequel El Filibusterismo serve as an inspiration for writers to express through literature any present issues in the society. It also evokes the idea of liberalism in such a way that Filipinos has become open-minded to innovations and beliefs that will benefit the country. Most importantly, education is very well valued, as tool needed by every individual to help progress the country.
Thursday, November 7, 2019
Free Essays on Media Is Everything
Media Effects on governing the mass media has played a major role in American politics since the formation of our country. So much so that it has been called by many, "the fourth branch of government." Originally, media power was only vested in the papers, but today radio and television are the more prominent forms of news. Since the administration of Franklin Delano Roosevelt, presidents have used the media to spread their views to their constituents. FDR brought us the fireside chats in one of which he requested the American people to put their money back into the banks and get our economy moving again. The media informed the nation of Richard Nixon's less then honorable means of governing and the media brought the Vietnam War to our living rooms every evening. There are even those who believe that the media chooses our presidents by deciding whether to air the good or bad things they dig up on the presidential candidates. There are two major ways the mass media affects the public. These are agenda setting and priming. Agenda setting is the way the media dictates the salience of contemporary issues. An experiment performed by Iyengar et al in 1980 showed that media does effect how important an issue is to the public. In this experiment, Iyengar showed three different groups news clippings weighted on the side of specific issues, then showed a fourth control group undoctored news. He tested these subjects before and after the showings and found that in all but one issue, the subjects had moved in the hypothesized direction. This last issue was inflation and he concluded that people just could not think this issue was more important then they already did. Agenda setting effect is important to the government, especially the president, because it leads to priming. Priming is the use of salient issues by the public to evaluate a public figure. This technique became very useful in the Ford admistration, when secretary of defense Donald Ru... Free Essays on Media Is Everything Free Essays on Media Is Everything Media Effects on governing the mass media has played a major role in American politics since the formation of our country. So much so that it has been called by many, "the fourth branch of government." Originally, media power was only vested in the papers, but today radio and television are the more prominent forms of news. Since the administration of Franklin Delano Roosevelt, presidents have used the media to spread their views to their constituents. FDR brought us the fireside chats in one of which he requested the American people to put their money back into the banks and get our economy moving again. The media informed the nation of Richard Nixon's less then honorable means of governing and the media brought the Vietnam War to our living rooms every evening. There are even those who believe that the media chooses our presidents by deciding whether to air the good or bad things they dig up on the presidential candidates. There are two major ways the mass media affects the public. These are agenda setting and priming. Agenda setting is the way the media dictates the salience of contemporary issues. An experiment performed by Iyengar et al in 1980 showed that media does effect how important an issue is to the public. In this experiment, Iyengar showed three different groups news clippings weighted on the side of specific issues, then showed a fourth control group undoctored news. He tested these subjects before and after the showings and found that in all but one issue, the subjects had moved in the hypothesized direction. This last issue was inflation and he concluded that people just could not think this issue was more important then they already did. Agenda setting effect is important to the government, especially the president, because it leads to priming. Priming is the use of salient issues by the public to evaluate a public figure. This technique became very useful in the Ford admistration, when secretary of defense Donald Ru...
Tuesday, November 5, 2019
Book Editor How to Work with an Editor For the Best Result
Book Editor How to Work with an Editor For the Best Result Book Editor: How to Work with an Editor For the Best Result Choosing the right book editor means the difference between tons of book sales and 5-star reviewsand a book that flops.I dont care who you are even if youre an editor yourself you need to get your book edited. This is a non-negotiable when it comes to self-publishing.If this is your first time writing and self-publishing a book, then working with a book editor may be novel ground. (Pun intended. Hardy-har-har.)Letââ¬â¢s get one thing out of the way: we encourage all self-published authors to hire a book editor. Nothing will tank a book faster than a whole bunch of reviews complaining about typos.A good book editor can help turn your bookfrom a ho-hum draft into a polished manuscript. To give your book the best chance of success that you can, and get a pro to get your manuscript into tiptop shape before publication.A lot of first-time authors make the mistake of editing their book to death, never progressing far enough to finish their book and getting to the publishing phase.Othe rs think they can toss a messy draft at an editor and expect them to fix everything. Thereââ¬â¢s a happy medium between making your draft good enough for an editor- and trusting when itââ¬â¢s time for your editor to step in and take over.With that in mind, in this article, we help you navigate the process of getting your book edited- both by you and your editor- so you can get published faster.NOTE: We cover everything in this blog post and much more about the writing, marketing, and publishing process in our VIP Self-Publishing Program. Learn more about it hereBefore we get into our seven tips for getting your book through the editing phase, lets take a look at what an editor does and why its crucial you have one.What exactly does a book editor do?A book editor is someone who reads through your book several times, correcting for grammar, punctuation, structure, content, and more, depending on the type of editor you hire.Essentially, a book editor is there to help your book become the finalized version with the outcome being what you intended.Because lets face it, no matter how hard we try, we cant always get the book right by ourselves. We know all of the content, the message, the theme, and were far too close to the work to understand how an outsider will perceive it.An editor works as that outsider as well as someone who views it with a critical eye. They can help you alter the book so your intended purpose is fulfilled by its end.What type of edit does your book need?Not everyone will need the same type of edit because everyone has varying levels of skill.For example, someone who has a great mind for structure but lacks in the technical skills of writing will benefit more from a line edit versus a developmental edit.That being said, here at Self-Publishing School, we highly recommend all writers of all skill levels get a full edit, which often includes copy, line editing, and developmental edits.Heres a table detailing each type of edit and what th ey entail.Type of EditWhat it MeansCopy EditingIn this type of edit, the editor will correct sentence structure, inconsistencies, tense, spelling and grammar, as well as some content feedback.ProofreadingThis is what most people think of when they think "editor." This type is when your punctuation, word choice, dialogue structure, and more is corrected.Structural EditThis is where the editor organizes the structure, moves pieces around, and suggests changes based on how the information comes across in its order.Developmental EditThis type of edit is when the editor pays close attention to how each chapter builds on the previous, as well as comments and feedback on the content itself.#1 Edit Quickly If you make the mistake of editing extensively, especially while youââ¬â¢re still actively writing, you potentially set yourself up for a major headache, which can delay publishing your book.Look at the example of Scott Allan. Before he joined Self-Publishing School, he spent two year s working on a voluminous self-help tome.His first draft clocked in at an impressive 90,000 words. He spent months perfecting each word. In the blink of an eye, six more months had elapsed, and he had not only sucked himself into the drain of editing, he hadnââ¬â¢t written anything new since he became stuck in self-edit mode.For one year, he wrote (and rewrote!) the book three times. Why, you might wonder? In his words, ââ¬Å"I suppose I didnââ¬â¢t know any better, first of all. That was before I learned the expression ââ¬ËDone is better than perfect.ââ¬â¢I was under the impression that it wasnââ¬â¢t done until it was perfect.â⬠Months later, he found an expensive editor to take on his book, but the author couldnââ¬â¢t stop tweaking the material.Tweaking lead to rewritingâ⬠¦and the book which had been so carefully drafted, then rewritten, then tweaked, never saw the light of day. The book was never actually published.Allan says, ââ¬Å"Painful lesson lear ned: Unpublished books donââ¬â¢t make money!â⬠Eventually, the author went on to write Pathways to Mastery and publish it on Amazon. Using the lessons learned during his first failed self-publishing attempt, the author spent just eight months writing and only two months editing this time.Since writing Pathways to Mastery, Allan has gone on to write and publish three more books, with a significant reduction in writing and editing time for each successive book.His latest book was in the editing phase for only three weeks.Key Takeaway: An unpublished draft wonââ¬â¢t earn any money or build your author name. Keep it simple: Draft first, then edit quickly.#2 Accept Imperfections Letting go of perfectionism is one of the hardest things to do. It sounds doable in theory, but in practice? Itââ¬â¢s a challenge.Many writers strive for perfection- the perfect grammar, spelling, and choice of words. Especiallywhen the story weââ¬â¢re putting out there is our first book, or abo ut an intensely personal topic, it ups the ante significantly. Weââ¬â¢ve been there, and we get it.Hereââ¬â¢s what you need to remember: Nothing in life is perfect. No person, book, nor writer.You can spend forever and your book still wonââ¬â¢t be 100% ââ¬Å"perfect.â⬠The editing phase can be rough because of the personal investment and attachment we have to our books.Key Takeaway: Instead of striving for the mythical unicorn of book perfection, strive for a reality-based ââ¬Å"as good as this book can be.â⬠#3 Do a Quick First RevisionBefore you give your book to your editor, you want to do a read-through to catch any glaring errors.Say this with me: rip off the Band-Aid. Make your first revision fast. Hereââ¬â¢s the best way to make that change of phase from writing to editing: when youââ¬â¢re done with your first draft, circle back and do a quick-and-dirty first revision.This involves a rapid read of the book, just to get a feel of what youââ¬â¢ve w ritten. Brace yourself. This phase might just be the most painful part of the editorial process. This is because itââ¬â¢s the first time youââ¬â¢re looking at your book with a critical eye and reviewing the results of your first draft.You need to make sure your book makes sense and that it doesnââ¬â¢t miss any words that would confuse a reader to the point that they donââ¬â¢t understand what youââ¬â¢re trying to say.This will reduce the back-and-forth hand-offs between you and your editor and will shorten to overall editing phase.If you notice any major problems, like plot holes or missing information, make a note of them but save these bigger edits for the next round of revisions.Your mental game needs to be strong here. Youââ¬â¢re going to think, ââ¬Å"I really suck. I hate writing, I hate my book, and Iââ¬â¢d rather watch Netflix than ever look at this crap again.â⬠The Buddha once said: ââ¬Å"All things must pass.â⬠Namaste, my friend. Youââ¬â¢ ll get through this phase and eventually love yourself (and your writing!) again.Key Takeaway: Give your book the chance it deserves. Right now, itââ¬â¢s just you alone with your book. Make this first revision quick.#4 Read Your First Pass Out LoudDuring your first pass, itââ¬â¢s necessary to read your book out loud to yourself. Your ear processes words in a way that your eyes may not so this gives you sense of pacing, chapter structure, and tone.While youââ¬â¢re reading out loud, try to read through the eyes of a reader. Imagine what your ideal reader looks like and how theyââ¬â¢d feel reading this. Visualize their experience with your book.During this read-through, donââ¬â¢t stop to make large corrections. Just use a red pen or highlighter to take notes of the obvious mistakes. Simply mark or circle these errors to come back to later.Put yourself on the clock when you do this. Time yourself for ten-twenty minutes per chapter and keep reading the whole draft through to completion.Key Takeaway: Reading out loud during your first pass can help with tone and pacing. Do this quickly, with a timer.#5 Delve Deeper With a Second PassYour next step is to go back to the beginning of the book and do a second pass. Your second revision should delve deeper. As you read, stay alert to passages that have ââ¬Å"holesâ⬠or sections of the book which need to be filled out more.Think of the analogy of building a home: First the frame goes up, then you build the walls. Keep adding to your book until your story and message is clear. Some of us have a tendency to change our voice from one paragraph to the next.Tone shift is something that a strong editor will pick up on, but to the extent you can make things consistent, you should. As this point, your book should be more polished.This is also the stage in which you should focus on making your book stronger by getting rid of weak verbs and replacing them with stronger verbs, like in this video of a live-edit below: Your book still isnââ¬â¢t perfect (remember we cautioned against perfect!) but at this stage, you should have a working manuscript which should be close to publishable. Key Takeaway: Your second pass should fill in the gaps in your story or chapters, and keep tone consistent.#6 Hand Over the Reins to an EditorOne of the hardest parts of the editorial relationship is handing over your passion project to a complete stranger.You may be thinking, ââ¬Å"What? Iââ¬â¢m giving it to a complete stranger who doesnââ¬â¢t know me- and doesnââ¬â¢t understand the blood, sweat, and tears that went into this- just so they can mark it up and tell me about all the things I did wrong?!â⬠Thereââ¬â¢s a reason the editor-writer relationship can feel fraught. Itââ¬â¢s because while your book is deeply personal to you, whereas for the editor, itââ¬â¢s just another day at the office. Your editorââ¬â¢s job is to care about the flow of the book, the grammar, spelling, an d in some cases, content.They will take your draft and elevate it to a readable manuscript. Try not to take it personally or push back at their criticism. Your editor will shape your draft into a ââ¬Å"goodâ⬠book to publish. Notice the deliberate choice of words- we didnââ¬â¢t say perfect!A ââ¬Å"goodâ⬠book is enjoyable, useful, readable and publishable.Key Takeaway:Dont take your editors constructive criticism personally. You have the same end goal: a good book!#7 Impersonate a Certain Disney PrincessTime to just Let it Go. Send your draft off to your editor and celebrate. Put up your feet and queue up your Netflix binge.Youââ¬â¢ve certainly earned it! By the time youââ¬â¢re done with your own revisions and have added and subtracted material, your editorial return time shouldnââ¬â¢t take more than a week- or two, max.Key Takeaway: Just get your draft into the hands of your editor! Let them worry now. Youââ¬â¢ve done the heavy lifting. Itââ¬â¢s easy to get bogged down in perfection, and its temptingto hold on tightly to your work.It can be a natural reaction to pouring your heart and soul into your dreams. But the quicker you can move your first draft through to the editing phase, the sooner youââ¬â¢ll achieve your dream of a published book.Your Next StepsWhether youre just getting ready to write or, even scarier, to edit, were here for you.Take a look at your FREE training that will give you an overview of just what you need to do to get started.
Sunday, November 3, 2019
Explanation of Positive Behavioral Support Matrix Essay
Explanation of Positive Behavioral Support Matrix - Essay Example The steps which are essential for process of PBS are the following,1. Behavior support team building: The process begins by developing a team which will be consists of the key stakeholders who are involved with the school childrenââ¬â¢s life. Family members, friends, and early educator can be the part of the team.2. Child-oriented planning: This process brings the team members together and discusses the strength of the child and his future vision and mission which will ultimately support the child and his family.3. Behavioral and functional assessment: It involves the collection of data, observing them, and analysis of the information to develop a clear and proper understanding of the relationship between the events which trigger the behavior of the child. 4. Development of hypothesis: Assessment process can be completed by a proper behavioral hypothesis statement. It will give a summarized view about the behavior, triggers, and its consequences. 5. Development of support plan: Ac cording to the result of hypothesis a support plan should be developed, the components of which should be related to the prevention strategy which will be in the alignment with the problem behavior.6. Monitor outcome: Evaluate the outcome and effectiveness. It should include the measurement of positive changes in problem behavior and achieve new skill for a more efficient outcome.Positive behavioral support is related to three kinds of prevention level such as primary level, secondary level and tertiary level (Sailor, 2009).
Friday, November 1, 2019
The structure of the legal profession in the United Kingdom Essay
The structure of the legal profession in the United Kingdom - Essay Example The essential difference between the two was that a barrister could represent a client in court, whereas a plain solicitor could not (Farley, 2001). A brief explanation of the reasons given for the division between the two types of lawyers will explain both the advantages and disadvantages of the fused system that has now been proposed and appears to be inevitable in the near future. The barrister was traditionally trained at one of the Inns of Court, and undertook both formal legal training and practical experience under the pupilage of a senior barrister. This system was meant to ensure that there was a relatively small but highly experienced group of trial advocates who would give the highest quality of representation to clients whose cases actually got to court, and who would also maintain a smoothly running court because they were specialists in that procedure (Hailsham, 1983). There were also other reasons given for having a separation between barristers and solicitors. These include the fact that having an independent barrister reviewing a cause for action enables the client to receive a fresh and independent opinions. The barrister system also enables smaller firms of solicitors to compete with larger firms as they all have access to the same independent barristers (who are legally barred from forming partnerships). A barrister can also act as a kind of check and balance on a solicitor during the trial, and if incompetence is seen may advise the client on a possible cause for action against the solicitor. The disadvantages of the barrister system are supposedly many, and these are starting to outweigh the perceived advantages throughout the British legal system. These include the fact that having more than one legal adviser leads to higher costs. It is also argued that as barristers depend upon solicitors for their work referrals, they are unlikely to criticize them. Thus the "checks and balances" idea is somewhat offset by the fact that a barrister is unlikely to bite the hand that feeds him/her. The over-specialization of barristers means that they may not have sufficient legal exposure outside of their fields and thus may not in fact give the best representation in cases that overlap several areas of the law (Clementi, 2004). As the government has suggested the legal system in Britain is widely regarded as "outdated, inflexible, over-complex and insufficiently accountable or transparent" (Clementi, 2004). The idea that the two major sections of the legal service system:- solicitor and barrister - should be fused together, is currently gaining steam within the United Kingdom. The main thrust for future developments is to be found within the very title of the government's latest policy issuance on the subject: The Future of Legal Services: Putting Consumers First (Crown, 2005). The government is careful not to suggest that those solicitors and barristers that currently work separately are in general offering bad services to their clients, stating that "the professional competence of lawyers is not in doubt . . . the caliber of many of our legal professionals is among the best in the world" (Crown, 2005). But the report goes on to say that "many consumers are finding that they are not receiving a good or fair deal." In response to this the government seeks to produce a legal system that is "efficient, effective and economic" and which will be a "transparent and accountable industry" (Crown,
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