Sugar Trade Essay Example for Free

Sugar Trade Essay â€Å"Give me some sugar!† When most people hear that phrase, it usually means someone wants a kiss. But in the late 1600s and early 1700s, people want to plant sugar. True, it started some 9000 years ago in New Guinea, but it took a while before the rest of the world caught on. During this time, there was a movement called the sugar trade. Although there were many forces driving the sugar trade, what mainly drove it were the ideal land masses for sugar production, the amount of slaves needed, and the demand for it. The first driving force behind the sugar trade was finding the perfect land to grow the plant. Jamaica and Barbados were under British rule in 1750 (Doc. 1), and they were the ones who discovered that the islands were well within the ideal climates for producing sugar because they were in the correct temperature climate, and had the perfect soil; the only off thing was the amount of rainfall they had was less than perfect amount. (Doc. 2) The encyclopedia tells us that the land that the British conquered than its own land and/or even England’s own land. Once a man had found the model land, he would state everything that he needs for his plantation, such as windmills, a boiling-house, the amount of slaves and animals, and all the other houses and shops. (Doc. 6) Belgrove demonstrated that owning a plantation was a big deal and one had to be absolutely sure on everything that was needed in order to have a fully-functioning plantation. Most plantations were owned by wealthy English families, instead of numerous people buying the land together. (Do. 7) It can be interpreted that Mintz said that the better was to get money was to own the whole thing by yourself. Men like Charles Long and John Gladstone owned large amounts of land and therefore became richer because of the amount of land they owned, amount of sugar they produced and the amount of slaves they had. (Doc. 7) Williams shows us that rich Englishmen liked getting richer and they used their plantations to attain this goal. The second driving force behind the sugar trade was the amount of slaves that were needed in order to produce these mass amounts of sugar. Men, and  women, and possibly children, were forced into the field to work or into the boiling-house. (Doc. 8) Clark and Bridgens illustrated that the British didn’t care what age or gender you were, you still went out and made sugar each and every day. Slaves didn’t come cheap though, at least not in British Caribbean. In 1748, slaves cost â‚ ¬32 in the British Caribbean whereas they only cost â‚ ¬14 on the West African coast. (Doc. 9) This indicates that the British Caribbean wanted to give the buyers a run for their money, whereas the African coast didn’t know better, this was all new to them. As the amount of slaves someone owned went up, so did the amount of sugar that was produced, unless you were the French in 1789, where they somehow actually lost tons. (Doc. 10) The British were probably more efficient in producing crops than the French and it resulted in them being the biggest sugar trader in the Caribbean. The need for slaves was so imperative that the British would trade thing that weren’t even theirs in order to make sure they had slaves. (Doc. 11) Campbell displays the variety of thing that the Brits would trade, such as powder, bullets, tobacco-pipes, certain toys, and some East India goods, but in the end, nothing was their own. The third force behind the sugar trade was the demand. Everywhere you looked, there were people using sugar for something. Whether it be tea, or rum, people had to have sugar. They would have a large barrel that weighed between 700 and 1200 pounds filled with sugar and people would go insane trying to get it. (Doc. 3) Parris illustrates this to us and Moseley says that the increasing demand for sugar exceeded all comparison with other articles, meaning sugar was the number one thing that Brits of the 1600s and 1700s wanted more than life itself. The UK, and most of the rest of the world, has used sugar to put in tea, which has made tea the most important nonalcoholic drink ever. (Doc. 4) Sugar was and is still a big deal, not only in England, but also in the US; ask ten people and see how many of them drink tea or coffee with sugar in it. By 1770, the population was well above eight million, and the consumption was up to 16.2 pounds. (Doc. 5) That basically says that all the Brits were drinking two pounds of sugar a year! They even set up a parliament that set up a trading system that said Brits made materials into finished goods, such as pots and pans, and then merchants would go and sell it at high prices in England and other  countries, which meant more money came in than went out. (Doc. 12) This meant that they could use the money that came in to buy more sugar or slaves to make sugar. Although there were many forces driving the sugar trade, what mainly drove it were the ideal land masses for sugar production, the amount of slaves needed, and the demand for it. One beneficial factor to this DBQ would have been more information on the French because it’s know that they were also planting and growing sugar, but we don’t hear their success story, as they did pass Britain in the top sugar producer in 1740.

Melbourne, Australia :: essays research papers

Melbourne, one of the most beautiful city's in the world. I have traveled through the USA, Canada & the Bahamas, and still, I find Melbourne is the greatest. In 1981 I was born in a New South Wales mid-coast town of Port Macquarie. I lived there until I was the age of four, and that's when we made the move to Victoria.I grew up in Kew, a suburb of Melbourne, not far from the actual city. Most of my family lived there, and was the main cause for the move. I went to school and met lots of friends. Nearly every night my friends and I would get together and go to the local car park and roller-blade for a few hours before going to 7-11 for a Slurpee.I look back at those days, and see how Melbourne was in the 80's and early 90's. Old buildings and great friendly people. Still, Melbourne has all of this, as well as new developments, such as new multi-million dollar entertainment complex's. Over the past 5 years, Melbourne have brought us the all new Exhibition Building and of course, the Crown Casino. This was a great move for the Kennett government, as it proved to be successful with the un-employment problem. It didn't stop the problem, but it sure did help it. The casino complex is not only for gambling, it is also a great place for teenager's to go the movies or even the special area for arcade games, sort of a side show alley. Crown also contains 2 nightclubs and is host to many international bands. In 1997, the decision was made to start construction of the Docklands stadium, for football and cricket, much bigger then the MCG. Construction is underway and it should be complete in the year 2000.As well as all these new constructions, Melbourne is home to a lot of well known events. The Ford Australian Tennis Open, is one of the biggest with thousands of international visitors annually. Biggest of them all, has got to be the Australian Formula 1 Grand Prix. It was only a few years ago that Melbourne got this wonderful event, as it used to be held in the streets of Adelaide. It is now located along the banks of Albert Park Lake. Moomba is an event which every Victorian, cant wait for. Its an annual event, held at the same time as the Grand Prix, and has been biggest festival since around the early 60's. Melbourne, Australia :: essays research papers Melbourne, one of the most beautiful city's in the world. I have traveled through the USA, Canada & the Bahamas, and still, I find Melbourne is the greatest. In 1981 I was born in a New South Wales mid-coast town of Port Macquarie. I lived there until I was the age of four, and that's when we made the move to Victoria.I grew up in Kew, a suburb of Melbourne, not far from the actual city. Most of my family lived there, and was the main cause for the move. I went to school and met lots of friends. Nearly every night my friends and I would get together and go to the local car park and roller-blade for a few hours before going to 7-11 for a Slurpee.I look back at those days, and see how Melbourne was in the 80's and early 90's. Old buildings and great friendly people. Still, Melbourne has all of this, as well as new developments, such as new multi-million dollar entertainment complex's. Over the past 5 years, Melbourne have brought us the all new Exhibition Building and of course, the Crown Casino. This was a great move for the Kennett government, as it proved to be successful with the un-employment problem. It didn't stop the problem, but it sure did help it. The casino complex is not only for gambling, it is also a great place for teenager's to go the movies or even the special area for arcade games, sort of a side show alley. Crown also contains 2 nightclubs and is host to many international bands. In 1997, the decision was made to start construction of the Docklands stadium, for football and cricket, much bigger then the MCG. Construction is underway and it should be complete in the year 2000.As well as all these new constructions, Melbourne is home to a lot of well known events. The Ford Australian Tennis Open, is one of the biggest with thousands of international visitors annually. Biggest of them all, has got to be the Australian Formula 1 Grand Prix. It was only a few years ago that Melbourne got this wonderful event, as it used to be held in the streets of Adelaide. It is now located along the banks of Albert Park Lake. Moomba is an event which every Victorian, cant wait for. Its an annual event, held at the same time as the Grand Prix, and has been biggest festival since around the early 60's.

Liquid Chromatography Lab

Liquid Chromatography – Laboratory #18 Introduction: We are using liquid chromatography to separate the colored substances in grape-flavored drinks. We separate the component dyes, and then we separate the flavorings and citric acids. Background: Chromatography is a process that is used to separate a substance into its component parts. The separation occurs between the stationary and moving phase of the lab. The moving phase consists of a fluid and the stationary phase consists of a solid. The mixture we are trying to split up is integrated into the mobile phase.When the mobile phase interacts with the solid phase, the components of the mixture are attracted to the solid phase in varying degrees. Components with higher levels of attraction for the mobile phase result in a faster speed of transport throughout the solid phase. Components with higher levels of attraction for the solid phase result in a slower speed of transport throughout the solid phase. These differing levels o f attraction end up in separation of the mixture into component bands, which exit the system as distinct liquids. [pic] Liquid chromatography labs are composed of six main parts: . A separation column filled with a fine-grain solid. b. A solvent (mobile phase) that moves through the separation column. c. An injection system to transport the solvent to the separation column. d. A pump to force the solvent through the separation column. e. A detector to determine when the components exit the separation column. f. A recorder [pic] Although in most chromatography labs the solid phase is polar and the mobile phase is nonpolar, we are using Reverse Phase Liquid Chromatography, where the mobile phase is polar and the solid phase is nonpolar. Also read: Fluorenol PolarityWhen the mobile phase interacts with the solid phase, the polar parts of the mobile phase are attracted to each other, so they wash through the column quickly. The less polar components of the mobile phase are attracted to the nonpolar solid in the column, so they wash through the column slowly. This results in a separation of the components, whose degree is measured as the resolution. [pic] Pre-lab Questions 1. What is the process of chromatography used for? 2. In the chromatography, components of a mixture distribute themselves between the stationary phase and the mobile phase.Explain how the components can be separate with these two phases. 3. In the liquid chromatography column used in this experiment, the solid has a C18 hydrocarbon bonded to it. Would a C18 hydrocarbon be polar or nonpolar? Explain. 4. Below are the typical data for this experiment. 1 mL of a Kool-Aid solution was loaded on a Sep-Pak C18 Column. The red and blue dyes were eluted fro m the column with a constant flow of 18% isopropyl alcohol. The eluted solution was collected in a 10 mL graduated cylinder. The volumes of eluant were recoreded at the beginning and end of each color band. pic] Information: The first step in calculating the selectivity and resolution of the system is determining the volumes of eluant corresponding to the band widths and band centers for each eluted dye. a. Bandwidth W is the volume in mL of eluant containing each dye as it emerges from the column. Calculate the bandwidth W for each dye for each of the three runs and then determine the average bandwidth W average for each dye. b. Center of band, called Average Retention Volume V Rave corresponds to the center of each band.The average retention volume is calculated by taking the average starting volume for each band and adding one half the corresponding average band width. V Rave = V start + (? ) W ave Calculate the average retention volume volume V Rave for the red and blue dyes. c. For each dye, a capacity factor k' can be calculated. This term is a relative measure of the attraction of the dye for the stationary phase as compared to its attraction for the mobile phase. The equation fo capacity factor is : k' = (V Rave – V M)/V M here V Rave is the average retention volume for each dye and V M is mobile phase or eluant volume in the cartridge. V M can be estimated to be one half the cartridge volume, with the stationary phase occupying the other half. For the Sep-Pak cartridges, this V M value is . 49 mL. Calculate k' for each dye. d. A selectivity or separation factor, alpha, can now be calculated. This is the ratio of the k' values for each dye, with the larger value in the numerator. For good separation, a mobile phase is usually chosen that gives an alpha value between 2 and 10. Calculate alpha for this separation: alpha = (k' Blue)/(k' Red) e.The resolution R, a measure of how well the two dyes are separated by the column and eluant, is determined by the equation R = 2(V Rave Blue – V Rave Red)/(W Blue + W Red) where the numerator is the volume between the band centers and the denominatory represents the average band width. The greater the selectivity, the larger the numerator and therefore the greater the resolution. The resolution can also increase as the efficiency of the column increases, since this results in a lower average band width. Calculate R for this separation. Materials: Isopropyl Alcohol, 70% 50 mLIsopropyl Alcohol, 28%, 10 mL Isopropyl Alcohol, 18% 50 mL Isopropyl Alcohol, 5% 10 mL Graduated Cylinder, 10mL Graduated Cylinder, 25 mL Distilled Water, 300 mL Grape Koolaid Solution, 20 mL Sep-Pak C18 Cartridge 10 mL Syringe w/ male Luer tip Beaker, 100 mL, 3 Beaker, 50 mL, Safety Precautions: Isopropyl alcohol is inflammable and a fire hazard. Do not conduct this laboratory in the presence of flames. This alcohol is slightly toxic by ingestion and inhalation. Chemical-resistant goggles, gloves, and aprons are required. Wash and rinse hands thoroughly with soap and water after conducting the lab.Procedure Part 1: Isocratic Separation (Constant rate of flow and solvent concentration) Pretreatment of the Sep-Pak C18 Cartridge 1. Cut off the exit tube/shorter end of the cartridge at the point where it meets the body of the cartridge. 2. Load the syringe with 10mL of 70% isopropyl alcohol. 3. Connect the tip of the syringe to the long end of the Sep-Pak cartridge. 4. Pump the isopropyl alcohol through the syringe cartridge at a rate of 5-10 mL/minute. 5. Collect the alcohol in a 10 mL graduated cylinder to monitor flow rate. 6. Repeat previous steps with distilled water. Sample Injection . Use 10 mL syringe to slowly inject 1 mL of Kool-Aid solution onto the column. 2. Discard the effluent that washes out. 3. Remove the cartridge from the syringe. 4. Rinse the syringe with 10 mL of distilled water 3 times to erase Kool-Aid residue. Sample Elution 1. Fill the syringe with 18% isopropyl alc ohol eluant and attach the syringe to the Sep-Pak Cartridge. 2. Pump the alcohol through the cartridge with a flow rate of 5-10 mL/min. 3. Collect effluent in 10 mL graduated cylinder. 4. Record volume of effluent collected as first and last of colored drops of each of the dyes exit.If separation is imperfect, record data for beginning/end of intermediate purple bands. Center of the purple band acts as the end of the first band and beginning of the last. Column Regeneration Repeat measurements two more times. Between injections, wash the column with 10 mL of distilled water at the same flow rate of 5-10 mL/min. If colored residue remains, repeat preatreatment. Part 2: Step Gradient Separation Now, we change composition of the eluting liquid. We first use a polar solvent, and then we reduce the polarity of the solid phase by adding isopropyl alcohol.Through this, we wash out citric acid and flavoring oils in addition. Pretreatment of the Sep-Pak C18 Cartridge Follow the pretreatment in Part 1. Sample Injection and Component Elution 1. Inject 1 mL of Kool-Aid solution into the column. 2. Elute polar components of the mixture (citric acid and sugar) by passing 5 mL of distilled water through the column. 3. Collect effluent in the first small beaker. 4. Elute the red dye by passing 10 mL of 5% isopropyl alcohol through the column. 5. Collect effluent in the second small beaker. 6. Use 10 mL of the 28% isopropyl alcohol to elute blue dye. 7. Collect effluent in the third small beaker. . Use 10 mL of 70% isopropyl alcohol to elute nonpolar flavor oils and additives. 9. Collect effluent in the fourth small beaker. 10. Record the color of each effluent. Evaporate the solvents and examine the components. 1. Allow the solutions to evaporate and leave them overnight in the fume hood until next lab period. Label solutions properly. 2. Observe and describe contents of each of the beakers. Measure using color, odor, and appearance. Data Table Part 1: Isocratic Separation | |Red Dye |Blue Dye | | Run #1 |Run #2 |Run #3 |Run #1 |Run #2 |Run #3 | |Start of Band (mL) | | | | | | | |End of Band (mL) | | | | | | | |W (mL) | | | | | | | |Vrave (mL) | | | | | | | |K’ | | | | | | | Part 2: Step Gradient Separation Beaker |Eluant |Observations | |1 |H2O | | | | | | |2 |5% isopropyl alcohol | | | | | | |3 |28% isopropyl alcohol | | | | | | |4 |70% isopropyl alcohol | | | | | | Calculations Determine the following values and show calculations. Refer to question six in the Pre-Lab Questions. Enter results in the Part 1 data table. 1. Bandwidth W for each dye. 2. Average Retention Volume V Rave for each dye. 3. Capacity Factor k' for each dye. 4. Selectivity alpha for the two dyes with this isocratic separation. 5. Resolution R for the two dyes with this isocratic separation.Post-Lab Questions 1. What is meant by polarity of molecules? What causes differences in polarity? 2. In discussing solubility, the rule â€Å"like dissolves like† is frequently used. What does this mean? 3. Draw the structural formula of isopropyl alcohol. Explain how it differs in polarity from water. 4. For good separation of the dyes, the resolution should be greater than one. What was the value you calculated? Did the two dyes overlap as they emerged from the column, or was the separation a good one? 5. In the step gradient separation, four separate fractions were collected. How were these related to the polarities of the column and of the eluting solvent?

Biography of Henry Clinton, British General

Henry Clinton (April 16, 1730–Dec. 23, 1795) was the Commander of the British North American forces during the American War for Independence. Fast Facts: Henry Clinton Known For: Commander of the British North American forces during the American War for IndependenceBorn: About 1730 in Newfoundland, Canada or Stourton Parva, England.Parents: Admiral George Clinton (1686–1761) and Ann Carle (1696–1767).Died: December 23, 1795 in GibraltarEducation: In New York colony and possibly studied under Samuel SeaburyPublished Works: The American Rebellion: Sir Henry Clintons Narrative of His Campaigns, 1775–1782Spouse: Harriet Carter (m. 1767–1772)Children: Frederick (1767–1774), Augusta Clinton Dawkins (1768–1852), William Henry (1769–1846), Henry (1771–1829), and Harriet (1772) Early Life Henry Clinton was likely born in 1730 to Admiral George Clinton (1686–1761), at the time the Governor of Newfoundland and Labrador, and his wife Ann Carle (1696–1767). References are that available post his birth date as 1730 or 1738; English peerage records state the date as April 16, 1730, but list his birth location as Newfoundland and George Clinton did not arrive until 1731. Henry Clinton had at least two sisters who survived to adulthood,  Lucy Mary Clinton Roddam, 1729–1750, and Mary Clinton Willes (1742–1813), and Lucy Mary was born in Stourton Parva, Lincolnshire, England.   Little more than that is known about his childhood: what there is comes primarily from 19th-century brief biographical records and the letters and documents left by Clinton himself. When George Clinton was appointed governor of New York in 1743, the family moved there and it is assumed that Henry was educated in the colony and may have studied under Samuel Seabury (1729–1796), the first American Episcopal bishop. Early Military Career Beginning his military career with the local militia in 1745, Clinton obtained a captains commission the following year and served in the garrison at the recently captured fortress of Louisbourg on Cape Breton Island.  Three years later, he traveled back to England with hopes to secure another commission in the British Army. Purchasing a commission as a captain in the Coldstream Guards in 1751, Clinton proved to be a gifted officer. Swiftly moving through the ranks by buying higher commissions, Clinton also benefited from family connections to the Dukes of Newcastle. In 1756, this ambition, along with assistance from his father, saw him gain an appointment to serve as aide-de-camp to Sir John Ligonier. Seven Years War By 1758, Clinton had reached the rank of lieutenant colonel in the 1st Foot Guards (Grenadier Guards). Ordered to Germany during the Seven Years War, he saw action at the Battles of Villinghausen (1761) and  Wilhelmsthal (1762).  Distinguishing himself, Clinton was promoted to colonel effective June 24, 1762, and appointed an aide-de-camp to the armys commander, Duke Ferdinand of Brunswick. While serving in Ferdinands camp, he developed a number of acquaintances including future adversaries Charles Lee and William Alexander (Lord Stirling). Later that summer both Ferdinand and Clinton were wounded during the defeat at Nauheim. Recovering, he returned to Britain following the capture of Cassel that November.   With the end of the war in 1763, Clinton found himself head of his family as his father had died two years earlier. Remaining in the army, he endeavored to resolve his fathers affairs—which included collecting an unpaid salary, selling land in the colonies, and clearing a large number of debts. In 1766, Clinton received command of the 12th Regiment of Foot.   In 1767 he married Harriet Carter, the daughter of a wealthy landowner. Settling in Surrey, the couple would have five children (Frederick (1767–1774), Augusta Clinton Dawkins (1768–1852), William Henry (1769–1846), Henry (1771–1829), and Harriet (1772).  On May 25, 1772, Clinton was promoted to major general, and two months later he used family influence to gain a seat in Parliament. These advancements were tempered in August when Harriet died a week after giving birth to their fifth child. After she died, Henrys in-laws moved into his house to raise the children. He apparently acquired a mistress at a later point in his life and had a family with her, but their existence is merely mentioned in Clintons surviving correspondence. The American Revolution Begins Crushed by the loss of wife, Clinton failed to take his seat in Parliament and instead traveled to the Balkans to study the Russian army in 1774. While there, he also viewed several of the battlefields from the Russo-Turkish War (1768–1774). Returning from the trip, he took his seat in September 1774. With the American Revolution looming in 1775, Clinton was dispatched to Boston aboard HMS Cerberus with Major Generals William Howe and John Burgoyne to provide assistance to Lieutenant General Thomas Gage. Arriving in May, he learned that fighting had begun and that Boston had fallen under siege.  Assessing the situation, Clinton brusquely suggested manning Dorchester Heights but was refused by Gage. Though this request was denied, Gage did make plans for occupying other high ground outside of the city, including Bunker Hill. Failure in the South On June 17, 1775, Clinton took part in the bloody British victory at the Battle of Bunker Hill. Initially tasked with providing reserves to Howe, he later crossed to Charlestown and worked to rally the dispirited British troops. In October, Howe replaced Gage as commander of British troops in America and Clinton was appointed as his second-in-command with the temporary rank of lieutenant general. The following spring, Howe dispatched Clinton south to assess military opportunities in the Carolinas. While he was away, American troops emplaced guns on Dorchester Heights in Boston, which compelled Howe to evacuate the city. After some delays, Clinton met a fleet under Commodore Sir Peter Parker, and the two resolved to attack Charleston, South Carolina. Landing Clintons troops on Long Island, near Charleston, Parker hoped the infantry could aid in defeating the coastal defenses while he attacked from the sea. Moving forward on June 28, 1776, Clintons men were unable to render assistance as they were halted by swamps and deep channels. Parkers naval attack was repulsed with heavy casualties and both he and Clinton withdrew. Sailing north, they joined Howes main army for the assault on New York. Crossing to Long Island from the camp on Staten Island, Clinton surveyed the American positions in the area and devised the British plans for the upcoming battle. Success in New York Utilizing Clintons ideas, which called for a strike through the Guan Heights via Jamaica Pass, Howe flanked the Americans and led the army to victory at the Battle of Long Island in August 1776. For his contributions, he was formally promoted to lieutenant general and made a Knight of the Order of Bath. As tensions between Howe and Clinton increased due to the latters constant criticism, the former dispatched his subordinate with 6,000 men to capture Newport, Rhode Island in December 1776. Accomplishing this, Clinton requested leave and returned to England in spring 1777. While in London, he lobbied to command a force that would attack south from Canada that summer but was denied in favor of Burgoyne. Returning to New York in June 1777, Clinton was left in command of the city while Howe sailed south to capture Philadelphia. Possessing a garrison of only 7,000 men, Clinton feared attack from General George Washington while Howe was away. This situation was made worse by calls for help from Burgoynes army, which was advancing south from Lake Champlain. Unable to move north in force, Clinton promised to take action to aid Burgoyne. In October he successfully attacked American positions in the Hudson Highlands, capturing Forts Clinton and Montgomery, but was unable to prevent Burgoynes eventual surrender at Saratoga. The British defeat led to the Treaty of Alliance (1778) which saw France enter the war in support of the Americans. On March 21, 1778, Clinton replaced Howe as commander-in-chief after the latter resigned in protest over British war policy. In Command Taking command at Philadelphia, with Major General Lord Charles Cornwallis as his second-in-command, Clinton was immediately weakened by the need to detach 5,000 men for service in the Caribbean against the French. Deciding to abandon Philadelphia to focus on holding New York, Clinton led the army into New Jersey in June. Conducting a strategic retreat, he fought a large battle with Washington at Monmouth on June 28 which resulted in a draw. Safely reaching New York, Clinton began drawing up plans for shifting the focus of the war to the South where he believed Loyalist support would be greater. Dispatching a force late that year, his men succeeded in capturing Savannah, Georgia. After waiting for much of 1779 for reinforcements, Clinton was finally able to move against Charleston in early 1780. Sailing south with 8,700 men and fleet led by Vice Admiral Mariot Arbuthnot, Clinton laid siege to the city on March 29. After a prolonged struggle, the city fell on May 12 and over 5,000 Americans were captured. Though he wished to lead the Southern Campaign in person, Clinton was forced to turn over command to Cornwallis after learning of a French fleet approaching New York. Returning to the city, Clinton attempted to oversee Cornwallis campaign from afar. Rivals who did not care for each other, Clinton and Cornwallis relationship continued to be strained. As time passed, Cornwallis began to operate with increasing independence from his far-away superior. Hemmed in by Washingtons army, Clinton limited his activities to defending New York and launching nuisance raids in the region. In 1781, with Cornwallis under siege at Yorktown, Clinton attempted to organize a relief force. Unfortunately, by the time he departed, Cornwallis had already surrendered to Washington. As a result of Cornwallis defeat, Clinton was replaced by Sir Guy Carleton in March 1782. Death Officially turning command over to Carleton in May, Clinton was made the scapegoat for the British defeat in America. Returning to England, he wrote his memoirs in an attempt to cleanse his reputation and resumed his seat in Parliament until 1784. Re-elected to Parliament in 1790, with assistance from Newcastle, Clinton was promoted to general three years later. The following year he was appointed Governor of Gibraltar, but died in Gibraltar on Dec. 23, 1795, before taking over the post.