Age Discrimination in a site based Workplace Literature review

Age Discrimination in a site based Workplace - Literature review Example nal Statistics (2008), there is an increasing trend in the number of workers aged above 50 years in the construction industry, and this number is likely to account for 30% of the total working population in this industry by the year 2020. Maurer & Rafuse (2001) observe that age has had a significant impact on the chances of people aged more than 55 years seeking employment in the UK. Most of the construction companies presume that younger and energetic people have a greater capacity to accomplish tasks and bring in new knowledge in the industry (Bendick et al. 2001). Nevertheless, it is important to note that the aging generation has significant experience to contribute to the industry. Martin et al. (2003) argues that to avoid age discrimination in the construction industry, the thought of where and how to advertise is important to ensure that different age groups are reached. Sometimes the aged are discouraged from seeking employment due to the use of advertisement language such as â€Å"recent graduate† which disregards the experienced labour force. On the other hand, some advertisements suppress the hopes of the younger energetic labour force through the use of words such as â€Å"mature† or â€Å"15 years experience† and many other words that discriminate applicants on the basis of age (Office of National Statistics 2008). Even though some tasks may require experience, some employers in the construction industry are not specific with regard to the job’s requirements. Martin et al. (2003) observes that different age groups can be offered equal opportunity if the experience needed is substitutable with equivalent qualifications. This allows the experienced older members in the labor force to match their younger qualified counterparts in applying for the job. Maurer & Rafuse (2001) argue that age is usually not a good sign of great potential among workers. Studies have proved that different people in different age groups have strong characteristics that are

Wilhelm Wundt Essay Example for Free

Wilhelm Wundt Essay Wilhelm Maximilian Wundt born on August 16th, 1832 in the German State of Baden was a philosopher, physician, professor and psychologist, and is considered by many as the â€Å"founder of modern psychology† or the â€Å"father of experimental psychology†. His contribution to psychology on a whole is noted favourably among modern psychologists; however, his labeling hence contribution to psychology as a science has distinguished him from many other prominent figures in the domain of psychology. He established the first laboratory committed exclusively to psychological research at the University in Leipzig, expanded experimental psychology as an established school of thought, developed the method of introspection which became the basis of the modern scientific method, wrote books and volumes of journals which channelled the spread of experimental psychology, and influenced different schools of thought such as structuralism and voluntarism. These were the major results of his efforts to pursue the study of human behavior in a systematic and scientific manner and his goal to establish psychology as a unique categorical science. Wundt, raised in a suburb called Neckarau, was the son of a Lutheran minister and grew up in an environment in which there were many scholars and intellectuals as both his parents’ families were made up of scholarly individuals such as historians, theologians, physicians and scientists. He therefore had a studious childhood and his education became solely the responsibility of his father’s assistant. His formal education began at the University of Tubingen, however, after staying for just one year he transferred to the University of Heidelberg where he became one of the top medical students in his class, graduated summa cum laude, and placed first in the state medical board examination (B. R. Hergenhahn, 2009). After graduating with his medical degree, he went on to the University of Berlin where he spent a year and after returned to Heidelberg where he became the lab assistant of famous physiologist Hermann Ludwig von Helmholtz. It was during this tenure with von Helmholtz that Wundt began to develop his theory that psychology was a natural science. This influenced him to give lectures on his scientific approach to psychology and write his first book called Contributions to the Theory of Sensory Perception which in essence paved the way for his journey in proving psychology to be a science. Wundt remained at Heidelberg until 1874 when he got an offer to be a Professor of inductive philosophy at Zurich University in Switzerland. After staying there for a year he received an appointment to teach philosophy at the University of Leipzig back home in Germany which he accepted and stayed until his death in 1920. The scientific approach by Wundt had soon come to be known as ‘Wundtian psychology’ because of its difference from what is was known as before him. The roots of psychology are quite archaic and are in fact dated back centuries to the early Greeks such as Aristotle and Hippocrates who had contrasting views of whether the heart or the brain was the seat of the mind. Glassman Hadad (2009) believed that generally psychology emerged from two traditions: philosophy and the natural science. Philosophers were always interested in understanding the meaning of human experience and perception. This interest sparked several studies which â€Å"set the stage for the development of the sciences, including psychology, through their reliance on observation as a means of knowing their world† (Kasschau, 2003, p. 15). One such philosopher was John Locke who showed his interest in deliberating the role of learning in behaviour when he wrote his Essay Concerning Human Understanding, which was published in 1690. Seventeenth century philosophers had introduced and popularized the idea of dualism, the concept that the mind and body are separate and distinct. Another famous philosopher Rene Descartes agreed with this idea; however he purported that there was still some interaction between mind and body. He had a mechanistic view of a human behaviour and reasoned that the mind and body influence each other to create a person’s experiences. He saw the mind as controlling the body’s movements, sensations, and perceptions. The scientific interests of psychology can also be dated back thousands of years with physicians such as Galen and Hippocrates who propelled their views of brain function. One scientist who emphatically influenced psychology was Isaac Newton. His work in physics helped to develop a scientific ‘method’ â€Å"consisting of observation, the formulation of hypotheses designed to predict events and outcomes and the subsequent testing of these hypotheses through further observation† (Watts, 2010). These elements remain central to the scientific method that is generally used in psychology. Also having great impact on psychology was Newton’s application of those methods and his theory of mechanical determinism. It was therefore believed that sciences such as biology, chemistry, physics and physiology had influenced aspects of psychology. Basically psychology was a combination or hybrid of different scientific fields and philosophy and was not seen as a distinct science. Philosophers such as Galileo, August Comte and Immanuel Kant rejected psychology as a science because they believed that it was outside the realm of science. Comte is noted famously for his exclusion of psychology from the classification of sciences which he wrote about in one of his famous writings Course of Positive Philosophy. John Stuart Mill, who was deeply influenced by and admired by Comte and his writings, disagreed with this exclusion. Mill voiced his objection of this exclusion and was of the opinion that psychology could become a science which he stated in his System of Logic in 1843; however, it needed someone with the scholarship and knowledge of how observation and experiments are made. Although Mill was of this position he did not go as far as to try to achieve this goal and only talked about doing psychological experiments; but Wundt took up the responsibility and actually did them. Therefore it was in the late 1800s and early 1900s that was the time when psychology broke away from philosophy and became a separate field of study (Plotnik Kouyoumdjian, 2011). Wundt believed that experimentation could be used to study only the simple processes of the mind but could not be used to study the more complex mental processes; however he did propose that it could help in the understanding of the higher mental processes. George A. Miller (1998) states that â€Å"For Wundt, psychology involved the analysis of consciousness into elements, the determination of the manner in which these elements are connected, and the determination of the laws of connection. This conception he borrowed from the British empiricists. Just as chemists had analyzed matter into atoms and anatomists had analyzed living systems into cells, psychologists, he decided, must analyze mind into the elementary sensations and feelings that make it up†.

Report On Military Applications Of Gnss Information Technology Essay

Report On Military Applications Of Gnss Information Technology Essay Recent years have witnessed an increasingly use of GNSS technologies in diverse areas of human endeavours. Governments, organisations, individuals etc. are beginning to rely upon GNSS technology in finding solutions to problems in different fields of life (Spirent, 2002: 17). One obvious area where GNSS technology has been deployed successfully since the launching of satellite navigation is in military applications. Military applications of GNSS date back in 1978 when the first Global Positioning System was launched by US Department of Defence. Since then, many GNSS and associated navigation systems are being used in military mission fields. This report examines past and present military applications of GNSS; it also attempts to look into future of military applications in the context of emerging trends and developments in GNSS world. 1.2 Global Navigation Satellite Systems (GNSS) Global Navigation Satellite Systems (GNSS) is generic term encompassing all satellite navigation systems that allows users to determine their locations by observing radio signals transmitted by GNSS satellites. First among them is the US Navigation by Satellite Ranging and Timing (NAVSTAR) Global Positioning System (GPS). Russian Global Navigation Satellites System (GLONASS) is the second generation of GNSS, conceived also as a military system.. The next generation of GNSS is the European Unions Galileo which is expected to be in full operation by early 2014. GNSS market is poised for revolution with the full deployment of Galileo constellation of satellites. Other Regional GNSS include Beidou operated by China, although through its Compass, China has planned to launch satellite navigation system with global coverage. Indian Regional Navigation Satellite System (IRNSS) is another GNSS in the development. Uncertainty still trail IRNSS project since India entered into partnership with Russian GLONASS. QZSS is another regional navigation system operated by Japan. It is developed to supplement GPS signals in Japan and neighbouring areas. Besides these, there are other regional GNSS space-based augmentation systems aim to improve the performance of GPS/GLONASS. The major regional augmentation systems are WAAS, EGNOS (European Geostationary National Overlay Service), MTSAT-Based Satellite Augmentation System (MSAS) in Japan and Indian GPS Aided Geo Augmented Navigation (GAGAN) GPS and GLONASS stand out among the list when it comes to military applications. GPS and GLONASS have been used in many military operations. 1.3 Global Positioning Systems (GPS) US Global Positioning System (GPS) was designed as a dual-use technology (civilian and military use). The positioning service available to civil users is called Standard Positioning Service, while that of the military is called Precise Positioning Service. GPSs Precise Positioning Service (PPS) is used for most military applications. Precise Positioning Service is restricted to only US military, NATO forces, and other users licensed by US Government. The encrypted precise code signals P(Y) and M-code are used for military applications. M- Code is a new signal being to realise the fundamental aim of achieving precise and accurate navigation services for military applications. These signals are broadcasted in link 1 (L1) and link 2 (L2) bands. L1C-d and L1C-p signals will be added to the PPS users under the GPS phased modernisation programme (Groves, 2008: 12). In times of navigation data messages, MNAV message broadcasts are broadcast on M-code signals. GPS is presently undergoing p hased restructuring and modernisation and it is expected that new programme will ensure that existing users are transmitted P(Y) code while the new users are transmitted new M code (Kaplan and Hegarty (2006: 654). 1.4. GLONASS Like GPS, GLONASS was conceived as a military system but designed to offer both military and civil positioning service (Groves 2008: 17). GLONASS P code signals are used for military applications and transmitted in both bands LI and L2 with frequencies 1592.95MHz 1613.86MHz and 1237.83 MHz 1256MHz respectively (Groves, 2008: 19). GLONASS K, fully modernised satellites are set to broadcast new signals that will improve the accuracy of military operations. 2.0 GNSS Positioning Requirements: The positioning principles are basically the same for GNSS systems. Generally, a GNSS receiver records three or more satellites signals to determine a 2 dimensional coordinates, while four or more signals are needed for 3 dimensional coordinates. The accuracy of GNSS position solution depends on the type of GNSS device used and application under consideration. Accuracy: Accuracy is a critical factor in military applications. GPS was launched because of the military requirements for high accurate global navigation (Len, 2007:185). In case of timing service, military operations require precise time transfer for synchronization of equipment and various operations (Len 2007: 184). The GPS PPS offers horizontal accuracy of 1.2m and vertical accuracy of 1.9m based on 24 satellite constellations (Groves, 2008). With its modernisation program, GLONASS is set to compete with GPS as it planned to achieve the same positioning accuracy with GPS. The Galileo Public-Regulated Service (PRS) has a lower accuracy when compared to that of GPS PPS; it has horizontal accuracy of 3m and vertical accuracy of 6m, much more lower to its Open Service (Groves, 2008: 20) Availability: Availability is also of the important characteristics of GNSS performance. Availability of navigation system is defined by US Federal Radionavigation Plan (FRP) as the percentage of time that the services of the system are within the required performance limits (Wang et al 2006: 1). Global availability of GNSS for military applications is expected to increase with the ongoing modernisation of GLONASS. GLONASS K satellites when fully launched will improve the accuracy of P code for military applications. India has partnered with Russia in the GLONASS project, and it is expected that India and other countries will have access GLONASS military signals for their mission operations and equipment testing. Aside from GPS military signals, more countries are today using civil signals in many military missions and equipment testing. Integrity: GPS will have full integrity monitoring and alert system as the fourth segment when the modernisation programme is completed. GLONASS K satellites will broadcast integrity information and differential corrections in L3 band. Similarly, Galileo will broadcast integrity alerts and some differential corrections. 2.1 GNSS Markets GNSS technology is naturally divided into two broad markets/applications civil / commercial markets and military markets. The user equipment used in military applications can be classified into two types: (i) GNSS receivers operated by human beings such as handheld type, human operated receivers on ships, aircrafts and vehicles (Len, 2007: 184 -185) (ii) Autonomous receivers these are not dependent of any human operation and usually integrated with inertial sensors. They are used in guided missile programs and newer military applications. Comparison between Military and Civil Receivers Military Civil Frequencies L1, L2 L1 and /or L1, L2 (L5 on 11F satellites Codes P(Y), M, C/A, C C/A and C (on modernised satellites Size/weight/power Card, handheld, receiver unit Chips, handheld, receiver unit Navigation accuracy 1m to 5m 5m to 10m Anti interference Greater than 54 dB Usually not more than 24 dB Integration A/J antennas, communications, inertial sensors Speed/heading sensors, communications, GIS, inertial sensors Adapted from (Len 2007: 183) 3.0 Military Applications of GNSS Of all GNSS, GPS has been most widely used in military applications. Essentially, GPS was developed to satisfy military requirements for a global positioning, navigation and timing service. (Kaplan, and Hegarty, 2006: 654). Military application of GPS started in late 1970s when GPS was used for weapon testing in the then US Navy Submarine Launched Ballistic Program (SLBM). GPS was used to track the Submarine Launched Ballistic Missiles from a ship as the missile travelled down the Atlantic (Len, 2007: 174). The GPS military equipment used for the missile testing then made use of translator. Subsequently, other weapon testing was conducted in the air and ground vehicles (Len, 2007: 177). Today, GPS can be deployed to variety of military applications. Some of these include: target acquisition; missile guidance, search and rescue; coordinate bombing; precision survey, instrument approach; antisubmarine warfare; range instrumentation; remotely piloted vehicle operations; barebase operati ons; close air support; en route navigation; command and control; field artillery and shore bombardment; rendezvous, sensor emplacement etc. (Len, 2007: 177 -178). Other military applications of GNSS include mine location, enemy radar location, Special Forces intelligence gathering etc (Dye and Baylin, 1997: 82). 3.1 GNSS/ Inertial Integration Systems: GNSS such as GPS has been proved to be weak in term of providing high quality and reliable position solution (Spirent, 2010). Thus inertial sensors are being used in many applications to complement GNSS. Inertial navigation system is a small, self contained device that uses inertial sensors (accelerometers and gyroscopes) to calculate position and velocity solution of a moving object (Logsdon, 1995: 39). It makes use of dead reckoning navigation system (Groves 2008: 7). Using GPS measurements, INS navigation solution is calibrated and corrected via integration algorithm (Groves and Long, 2005: 2). GPS/INS integration is popular in the guided weapons and unmanned air vehicles (UAVs) where low cost sensors are used (Groves and Long, 2005: 2). INS function independently of GNSS signals susceptible to jamming, interference, enemy manipulation and other distortions and are therefore used in many military applications (Dye and Baylin, 1997: 13). Examples of practical applications of GNSS/ INS based solutions are given in the report. Advantages of GNSS/INS based solution: INS offers continuous navigation operations; it provides high-bandwidth output (50 Hz) and low short-term noise; it also provides attitude, angular rate, and acceleration measurements as well as position and velocity (Groves and Long 2005: 419) (Groves 2008: 8). GPS provides a high accuracy which does not drift with time(Groves and Long, 2005: 419) Disadvantages of GNSS/INS based solution: The accuracy of INS output is degraded with time thus necessitating the need to calibrate the errors (Groves 2008: 8). Unlike INS, GNSS has lower bandwidth (1Hz), more noisier than that INS and does not usually include altitude (Groves and Long 2005: 419, 420) One obvious challenge in the military use of GNSS is issue of deliberate jamming and interference by the enemies. GPS receivers have been found to be susceptible to jamming due to low signal power of GPS signal. This trend has raised a concern to US Department of Defence in the recent years thus signalling the programme of developing various anti-jamming techniques to mitigate these effects. Recent anti jamming technologies include nulling of antennas and ultra tight coupling of the GPS and the inertial sensors (Kaplan, and Hegarty (2006: 656). 3.2 Practical Applications of GPS in Precision Guidance In 1991, US army and its allies successfully deployed GPS in the attack to rescue oil rich Kuwait after its invasion by Iraq in an operation tagged Operation Desert Storm. GPS receivers were fitted in the military aircrafts and helicopters, bombs were dropped from these aircrafts as targeted thus eliminating unwanted casualties. GPS receivers were used to know the coordinates of the targets so that the weapons can be delivered accurately. In 1995, GPS was also deployed during the Bosnia war by the combined US and NATO forces in a campaign tagged Operation Deliberate Force. Military aircrafts operating from their base in Italy were fully equipped with GPS equipment in the strike against the Bosnia Serb forces. Perhaps, the Joint Direct Attack Munition (JDAM) is the most impressive breakthrough GPS has achieved in area of precision guidance. JDAM is an independent, tail kit with gravity bomb; it is usually mounted on the military fighter jets and uses GPS/INS guidance to deliver the target (Cozzens, 2006). JDAM has the capability of working in all weather conditions and its accuracy is not dependent on the altitude (Cozzens, 2006). JDAM recorded 9.6m accuracy during their testing. JDAM have been successfully deployed in many operations. For example, in June 2006, US Air Force successfully used GBU-38 Joint Direct Attack Munition equipped with GPS precision guidance to kill former Iraq terrorist leader Abu Musab al Zarqawi in his house (Cozzens, 2006). Once on the air, GPS/INS guidance enables the gravity bomb to be delivered accurately at the targets (Cozzens, 2006). In case of GLONASS, Russian military has deployed GLONASS military signals in many missions (Len, 2007: 189). Russian Federation Airforce recently developed latest KAB family of weapons called KAB 500S. KAB 500S is a guided bomb similar to that of US JDAM. KAB 500S can be dropped from aircraft at altitudes of 500 to 10,000 metres and airspeeds of 550 to 1,100 kilometres per hour (Deagel, 2007). It uses GLONASS Military code and INS to strike the targets (Len, 2007: 189). The third generation GNSS, Galileo has encrypted signal Public Regulated Service that may be used for military applications in the near future. 4.0 GNSS Future and Military Applications: The GNSS have made giant strides in military applications particularly in area of guided weaponry and smart bombs. GPS-aided munitions, ranging from artillery shells to smart shells have proved to be a reliable technology in recent time in times of accuracy (Lucio, (2002), (Wells, (2001). Countries all over the world will continue to embrace these technologies as cheaper GPS/INS coupled munitions are being produced to meet the requirements for accurate, precise timing and navigation solutions in the land, air and sea in near future. Current developments in GNSS industry like new signals and constellations acquisition will usher new era of high accurate military based satellite navigation. The separation of GPS signals for military and civilian use will lessen the effects of jamming and interference in military operations coupled with high signal power of new M code. GPS new military code will improve the anti-jamming capability of the system as current modernisation programme will make it autonomous. Non coherence integration of the acquisition circuit of the new military code will enhance the performance of the system in the presence of noise and jamming (Betz et al, 2005: 45, 46). In the area of system integrity, modernization programme of GPS and GLONASS will offer users more reliable measurements as they will have options to validate GNSS measurements. Presently, only GPS and GLONASS are used for military applications. I look at future where GNSS will be more available for military applications. More countries will be authorised to have access to GPS P(Y) code in near future and others will want develop their own SBASs. For example, Nigeria has developed its own SBAS called NIGCOMSAT with coverage only in Nigeria for now. Modernised GPS civil signals will continue to be used by countries not authorised to use P(Y) code. Only, recently, Russian Government announced that GLONASS military signals will be freely made available to any country that want to use them. Already, India and Russian have agreed to collaborate on GLONASS project (Len, 2007: 190). It is expected that more Countries will enter into agreements with Russian when GLONASS constellation of satellites are fully deployed in the orbit. China is making steady progress on its Compass project and is poised to use the system to strengthen its national security. Finally, GNSS industry is geared for revolution when Galileo is fully operationalised in next few years. Galileo has an encrypted signal PRS which has potentials for military applications. It is already been speculated that this may be used for military applications in the near future, although Galileo is purely conceived as a civilian system.

Holocaust Survivors Essay -- Essays Papers

Holocaust Survivors Who survived the holocaust? What are their lives like today? What has been the government's response towards those who survived after World War II? Have the survivors kept their faith? How has the survivors next generation been affected? The survivors of the holocaust were deeply effected by the trauma they encountered. This unforgettable experience influenced their lives, those around them, and even their descendants. When the infamous Hitler began his reign in Germany in 1933, 530,000 Jews were settled in his land. In a matter of years the amount of Jews greatly decreased. After World War II, only 15,000 Jews remained. This small population of Jews was a result of inhumane killings and also the fleeing of Jews to surrounding nations for refuge. After the war, emaciated concentration camp inmates and slave laborers turned up in their previous homes.1 Those who had survived had escaped death from epidemics, starvation, sadistic camp guards, and mass murder plants. Others withstood racial persecution while hiding underground or living illegally under assumed identities and were now free to come forth. Among all the survivors, most wished not to return to Germany because the memories were too strong. Also, some become loyal to the new country they had entered. Others feared the Nazis would rise again to power, or that they would not be treated as an equal in their own land. There were a few, though, who felt a duty to return to their home land, Germany, to find closure and to face the reality of the recent years. 2 They felt they could not run anymore. Those survivors wanted to rejoin their national community, and show others who had persecuted them that they could succeed. In order to enco... ... 160. 8. Norbert Muhlen, The Survivors (New York: Crowell Company, 1962), 38-39. 9. Norbert Muhlen, The Survivors (New York: Crowell Company, 1962), 40-42. 10. Survivors of the Holocaust -Study Guide

Media Reaction Paper – West Side Story

Media Reaction Paper: West Side Story West Side Story was one of the first musicals this writer saw on Broadway. It was such a mesmerizing experience to live the culmination of the hard work performed by a group of very talented individuals that stemmed from a single idea. It was not until research was done for this paper that this student realized what a great cultural impact West Side Story was when it was first introduced to audiences. The book for West Side Story was written by Arthur Laurents in 1949. An interesting fact about this legendary story is that it was not always named West Side Story. The original name given this tale, based on Romeo and Juliet, was â€Å"East Side Story. † It was written as a rivalry tale between a gang of Roman Catholic teenagers named The Jets, and a gang of Jewish teenagers named The Emeralds. Because this topic of rivalry between the Jewish and Roman Catholic communities was redundant in the industry at the time, the creative team composed of Arthur Laurents, Jerome Robbins and Leonard Bernstein, decided to put the project on hold. Thus, they ceased work on the idea for a period of almost five years (Miller, 2006). After five years the creative team reunited to work on other projects and decided to revisit East Side Story and give it a completely new twist and decided to set it in Harlem, New York City (Miller, 2006). West Side Story depicts the love between a Caucasian teenage boy from the West Side of New York City and a young Puerto Rican girl from the same neighborhood. The characters were all from a poor neighborhood and hung out on the streets together. There were two gangs that were in constant conflict with each other: The Jets and The Sharks. Tony, the main character, is a member of the Jets, a gang composed of Caucasian teenage boys. He is however, different from the rest of the members and wants to work and someday go on his own way. Maria is the sister of the leader of the Sharks, a gang composed of teenage Puerto Rican boys. Maria and Tony meet and instantly fall in love and have to deal with the turmoil of being from different cultural backgrounds and the difficulty of having their love accepted by each of their groups. The relationship causes conflict in the neighborhood that results in violence and ultimately Tony’s death. West Side Story was considered a breakthrough for the Puerto Rican community. Very little exposure about the Puerto Rican culture and their presence in New York City had been portrayed in any type of media up to the time the play’s debut on Broadway. Although Puerto Rican’s were depicted with stereotypes that were not necessarily true about their culture, the story delivers a message of change. It describes racism as dangerous and as an obstacle to love. To have developed such a controversial story during times when segregation still existed in the United States was very brave. What softened the diversified and strong topic was the fact that it was a musical with very vivid choreography and colors andan upbeat script full of humor. This factor made the story more acceptable to the American people. The media has its ways to persuade the masses. Within the past century, the media has played an important part in the cultural changes in America. Television, radio, theater and written works have broken through the racism barriers to expose the many faces of the American population. Everyone is different and their cultural background makes a special contribution to the community of the world. West Side Story is a good example of a media piece that addressed America’s cultural diversity in a time when most people had no idea how multicultural our country really was. References Miller, G. (Wintr-Summer 2003). Arthur Laurents chronology. American Drama, p. 1(9). Retrieved November 10, 2009, from General OneFile via Gale: http://find. galegroup. com. ezproxy. apollolibrary. com/ips/start. do? prodId=IPS

Age of Jackson essays

Age of Jackson essays Jackson was the seventh president of the United States and the first Westerner to be elected president. His election marked the end of a political era dominated by the planter aristocracy of Virginia and the commercial aristocracy of New England. Jackson himself was an aristocrat, but from a rougher mold than his predecessors. He fought his way to leadership and wealth in a frontier society, and his success established a bond between him and the common people that was never broken. Small farmers, laborers, mechanics, and many other Americans struggling to better themselves looked to Jackson for leadership. An example of his representation in America are Jacksons followers considered themselves the party of the people and denounced their political opponents, the National Republicans and later the Whigs, as aristocrats. In fact, Jacksonian leaders were nearly all as wealthy, and as different from the common people, as the Whigs. For all of Jacksons talk about helping working people, his policies accomplished little for them. His banking policies destabilized the nations currency and, some historians think, were designed to help bankers friendly to his Democratic Party. However benevolent Jackson may have been toward blacks and Native Americans in his personal life, they clearly were not included in the common people he sought to aid in his public life. His Native American policy deprived Americas original peoples of millions of acres despite prior treaties and the disapproval of the Supreme Court of the United States. His party promoted the interests of slaveholders and thereby helped to delay a solution to the slavery question until it erupted into the Civil War in Being a prominent figure in American society, Jackson left a legacy of a strong presidency. Since his time it has been commonplace for presid ...