Unit_10_TAEASS403B Essay Example | Topics and Well Written Essays - 2000 words

Unit_10_TAEASS403B - Essay Example This would also ensure that the assessment that are in relation to the standards of the industry are consistent with the learning outcomes that are relevant and the specific criteria of performance for the qualifications, training fields, units of competency and the levels of qualification. In addition to this, this action would give the assessor knowledge concerning the effectiveness and appropriateness of the system of assessment in their work. It would also help in evaluating the assessment objectives process that would be used, and in confirming the decisions that they would make in relation to the assessment competency. The information regarding the assessment benchmarks could be gathered from a number of sources. This includes other RTOs, industrial associations, professional associations, networks, and the relevant ITABS. In order to prepare, Jeremy and other assessor would need to identify the person to be involved in validation; agree and determine the focus and purpose of validation; identify the particular tools, instruments, methods, situations of assessment, and results of assessment that may come under scrutiny; identify the required standards and benchmarks; identifying the head of the process of validation; finding out the functions and activities of other individuals that would be involved in the process of validation, and agreeing on the approach and method of validation. The rule of evidence shows out that all the evidence must be sufficient, authentic, and current. The assessor needs to gather enough evidence so as to ensure that the assessment candidate would be competent in all the elements of the criteria of performance. The collected evidence needs to be recent to ensure the assessment of current competency thus validity. Additionally the assessors should also make sure that the gathered evidence belonged to the candidate. On the other hand, the

Experiment on Pencil Resister Effect on Circuit Output

Experiment on Pencil Resister Effect on Circuit Output Contents (Jump to) Research Background Figure 1: Metallic Bonding Figure 2: Molecular structure of diamond and graphite Figure 3: Graphite grading scale Figure 4: Resistance proportional to length Figure 5: Resistance proportional to cross sectional area Aim Experiment 1 Experiment 2 Experiment 3 Hypothesis Experiment 1 Experiment 2 Experiment 3 Justification of hypothesis Experiment 1 Experiment 2 Experiment 3 Materials Method Experiment 1 (length) Experiment 2 (cross sectional area) Experiment 3 (type of pencil) Diagram of the experiment Ohm’s Law Variables Independent Variables Dependent Variables Controlled Variables Results Table 1: Experiment 1 (length) Table 2: Experiment 2 (cross sectional area) Table 2: Experiment 3 (pencil type) Discussion Experiment 1 Experiment 2 Experiment 3 Research Background The electrical conductivity of a substance is a measure of the ease with which the valence electrons move throughout its structure, and thus is dictated by its bonding. Metallic bonding produces the greatest conductivity, as it involves a lattice of positively charged nuclei, with electrons free to move throughout the lattice (Science Daily, 2010). Figure 1: Metallic Bonding Hence, when an electrical charge is applied to the metal, the electrons are able to easily move through it and therefore it can be said to be a good conductor. Substances bound by covalent bonding, on the other hand, are usually poor conductors (called insulators) as the electrons are tightly held within the covalent bonds. They are materials that do not permit the free flow of electrons. While a conductor lets the flow electrons pass through and an insulator impede the flow of electrons. A resistor’s resistance limits the flow of electrons throughout the circuit. The resistors ability to reduce the current is called resistance and is measured in units of ohms (symbol: ÃŽ ©). Resistance is caused by the collisions of the electrons with positive ions in the lattice. Ohm’s Law The resistors current(I)in amps (A) is equal to the resistors voltageVin volts (V) divided by the resistanceRin ohms (ÃŽ ©) Electrical current (Amps) is the rate at which charged particles move from one part of the conductor to another current has the symbol I. Voltage is a measure of the difference inelectrical energybetween two parts of a circuit. The bigger the difference in energy, the bigger the voltage. An ohmic resistor obeys the ohm’s law. Ohm’s law states that the proportional energy drop across a resistor is proportional to its resistance and the current the flows through is. This can be represented in the form of a formula: V=IR So, if a current of 1 A is passing through a conductor of resistance of 1à ¢Ã¢â‚¬Å¾Ã‚ ¦ the potential difference between the ends of the conductor will be 1V. Additionally, resistance is equal to voltage divided by current, and voltage is equal to current multiply by resistance. Therefore, in a circuit, if a resistors resistance is equal to voltage divided by current, the resistor is ohmic. Resistivity is the measure of resistance inherent to a particular material. Provided that the dimensions (length and cross sectional area) of any conductor do not change, its resistance will remain the same. If two conductors of exactly the same dimensions have a different resistance, they must be made of different materials. Resistivity is given the symbol (Ï ) called rho. The resistivity of a material is defined as the resistance of a piece of material having a length of one metre and a cross sectional area of one square metre. Graphite is a pure carbon substance, where three of its valence electrons are covalently bonded to three other carbon atoms, forming a layered structure. However, the fourth valence electron is left unbonded, and thus is able to move freely. These valence electrons allow the flow of electricity through the substance in certain directions when an electrical current is applied to graphite. Figure 2: Molecular structure of diamond and graphite Each carbon atom in graphite is covalently bonded to three neighboring carbon atoms and these form layers of hexagonal network which are separated by a large distance. Although the fourth valence electrons are remained free which enables the electrons to flow through graphite this makes graphite a good conductor of electricity. Although this does not happen in diamond, each of the carbon atoms in diamond makes bonds with four other carbon atoms. So there is no free electron with carbon atoms to conduct electricity blocking the flow of electrons. Figure 3: Graphite grading scale The â€Å"lead† in pencil is made up of a combination of graphite and clay, with wax and other additives in small quantities. Clay, unlike graphite, is an insulator as it does not conduct electricity well, due to the covalent bonds holding valence electrons tightly in place. This is because clay is mainly made out of silicate minerals; these minerals have very low conductivity which makes them good insulator. The shade of pencil is dependent on percentage of each component. Pencils range from 9H, with 41% graphite and 53% clay, to 9B, with 93% graphite and 2% clay. Given that graphite is more conductive than clay, as the concentration of graphite increases, the conductivity should increase. The resistance of an object, a measure of the conductivity of a circuit component, this can be calculated using Ohm’s law explained before above, which considers electrical resistance as the ratio of the voltage applied to the current which flows through it, or the degree to which the voltage is resisted. Factors that would be affect the resistance of the graphite are length, cross sectional area and temperature. As the length of the conductor is shorter it would allow more electrons to pass through at a higher rate rather than a longer one. While as the radius of the cross sectional area of a conductor (or thickness) is wider the more electrons can pass through compared to a narrower conductor restricting high rate of flow of electrons. Finally, although temperature would not be tested as it would have less effect on the resistance of the conductor. As the temperature of the conductor increase stronger the resistance as the protons inside the conductor would be vibrating slowing the flow of electrons. Resistance isproportional to length. If the pencil’s resistor has a different length and give each a particular potential difference across its ends, the longer the pencil’s resistor the less volts each centimetre of it will get. A smaller potential gradient in the graph would have fewer volts per metre means current decreases with increased length and resistance increases. Figure 4: Resistance proportional to length Figure 5: Resistance proportional to cross sectional area Resistance isinversely proportional to cross sectional area. The bigger the cross sectional area of the pencil’s resistor the greater the number of flow of electrons can pass through the conductor. If the length of the pencil’s resistor does not change the conductor still gets the same number of volts across the potential gradient does not change and so the average drift velocity of individual electrons does not change. Aim Experiment 1 The aim of this experiment is to test if the length of a pencil resistor affects the output of the circuit. Experiment 2 The aim of this experiment is to test if the cross sectional area of a pencil resistor affects the output of the circuit. Experiment 3 The aim of this experiment is to test if the type of a pencil resistor (HB, 2H, 2B and 6B) affects the output of the circuit. Hypothesis Experiment 1 It is predicted that the longer the length of a pencil’s resistor the lower the current as the electrons would have to travel further which gives a higher resistance. Experiment 2 It is predicted that the thicker the cross sectional area of the pencil’s resistor the more electrons would flow through which gives a low resistance. Experiment 3 It is predicted that as the concentration of clay in the pencil’s resistor increases, the resistance increases. Justification of hypothesis Experiment 1 As the length of a conductor increases, the resistance increases. Increasing the length of the graphite in the pencil will increase the resistance of the whole circuit. As the resistance through the pencil increases, more voltage is used there and the potential energy across the circuit decreases. Experiment 2 As the cross sectional area of the conductor increases, the resistance decreases. As the radius of the cross sectional area of a conductor (or thickness) is wider, the more electrons can pass through compared to a narrower conductor restricting high rate of flow of electrons. Experiment 3 Graphite is more conductive than clay, as the concentration of clay in the pencil’s resistor increases, the resistance increases. Clay compared to graphite is an insulator and does not conduct with electricity well blocking the flow of electrons. This shows that a 2B would be more conductive than a HB as it contains more graphite than clay. Materials Pencils (HB,2H,2B,6B) x3(HB),x3(2H),x3(2B),x3(6B) Insulated alligator clip set X6 Power supply X1 Multimeter (Amp meter and Volt meter) X2 Ruler (30cm) X1 Method Experiment 1 (length) The circuit was setup using two alligator clips, in a power battery. Then one wire was attached to one end of the terminal of the battery and the other end of the wire was attached on to one end of the pencil’s graphite. Next, the seconds wire was attached to the other end of the terminal of the battery and the other end of the wire was attached into one end of the pencil’s graphite. Finally, the two multimeter was placed next to the pencil and the two wires from the multimeters were attached on to the ends of the pencil. The circuit was tested with different lengths of pencils. Then the experiment was recorded in a table and graph. Experiment 2 (cross sectional area) The circuit was setup using two alligator clips, in a power battery. Then one wire was attached to one end of the terminal of the battery and the other end of the wire was attached on to one end of the pencil’s graphite. Next, the seconds wire was attached to the other end of the terminal of the battery and the other end of the wire was attached into one end of the pencil’s graphite. Finally, the two multimeter was placed next to the pencil and the two wires from the multimeters were attached on to the ends of the pencil. The circuit was tested with different cross sectional area of pencils. Then the experiment was recorded in a table and graph. Experiment 3 (type of pencil) The circuit was setup using two alligator clips, in a power battery. Then one wire was attached to one end of the terminal of the battery and the other end of the wire was attached on to one end of the pencil’s graphite. Next, the seconds wire was attached to the other end of the terminal of the battery and the other end of the wire was attached into one end of the pencil’s graphite. Finally, the two multimeter was placed next to the pencil and the two wires from the multimeters were attached on to the ends of the pencil. The circuit was tested comparing HB, 2H, 2B and 6B. Then the experiment was recorded in a table and graph. Diagram of the experiment Ohm’s Law The resistance was then measured by dividing the total voltage (V) and the current (I). Example: Pencil 1 (HB 8.5 cm) Variables Independent Variables The resistor (pencil) Dependent Variables The volt and the amp meter Controlled Variables The voltage Results Table 1: Experiment 1 (length) Length Voltage of battery total voltage (V) Current (A) Resistance (ÃŽ ©) Pencil 1 (HB 8.5cm) 2 V 1.5 V 0.21 A 7.14 ÃŽ © 4 V 2.9 V 0.41 A 7.07 ÃŽ © 6 V 4.4 V 0.66 A 6.67 ÃŽ © 8 V 6 V 0.77 A 7.79 ÃŽ © Pencil 2 (HB 17.5cm) 2 V 1.6 V 0.1 A 16 ÃŽ © 4 V 3.2 V 0.2 A 16 ÃŽ © 6 V 4.9 V 0.28 A 17.5 ÃŽ © 8 V 6.8 V 0.4 A 17 ÃŽ © Pencil 3 (HB 11.5cm) 2 V 2 V 0.18 A 11.11 ÃŽ © 4 V 4 V 0.32 A 12.5 ÃŽ © 6 V 6 V 0.5 A 12 ÃŽ © 8 V 8 V 0.73 A 10.96 ÃŽ © Pencil 4 (HB 7cm) 2 V 1.9 V 0.27 A 7.03 ÃŽ © 4 V 3.9 V 0.56 A 6.96 ÃŽ © 6 V 5 V 0.79 A 6.33 ÃŽ © 8 V 6.7 V 1.2 A 5.58 ÃŽ © Total Resistance Pencil 1 7.14 ÃŽ © + 7.07 ÃŽ © + 6.67 ÃŽ ©+ 7.79 ÃŽ ©/ 4= 7.1675 ÃŽ © Pencil 2 16 ÃŽ ©+ 16 ÃŽ ©+ 17.5 ÃŽ ©+ 17 ÃŽ ©/4= 16.625 ÃŽ © Pencil 3 11.11 ÃŽ ©+ 12.5 ÃŽ ©+ 12 ÃŽ ©+ 10.96 ÃŽ ©/ 4= 11.6425 ÃŽ © Pencil 4 7.03 ÃŽ ©+ 6.96 ÃŽ ©+ 6.33 ÃŽ ©+ 5.58 ÃŽ ©/4= 6.475 ÃŽ © Pencil 1 Pencil 2 Pencil 3 Pencil 4 Table 2: Experiment 2 (cross sectional area) Cross sectional area Voltage of battery total voltage (V) Current (A) Resistance (ÃŽ ©) Pencil 1 (HB 17.5cm) 4 V 1.07 V 0.15 A 16.40 ÃŽ © 6 V 1.53 V 0.21 A 16.90 ÃŽ © 8 V 1.99 V 0.27 A 17.19 ÃŽ © Pencil 2 (HB 17.5cm) 4 V 1.55 V 0.19 A 8.16 ÃŽ © 6 V 2.17 V 0.26 A 8.35 ÃŽ © 8 V 2.78 V 0.33 A 8.42 ÃŽ © Pencil 3 (HB 17.5cm) 4 V 2.46 V 0.18 A 5.94 ÃŽ © 6 V 3.55 V 0.27 A 5.67 ÃŽ © 8 V 4.64 V 0.36 A 5.53 ÃŽ © Cross Sectional Area A=2Ï€r2 Pencil 1 3.14 x 1 =3.14 Pencil 2 3.14 x 2= 6.28 Pencil 3 3.14 x 3= 9.42 Total resistance Pencil 1 16.40 ÃŽ ©+ 16.90 ÃŽ ©+ 17.19 ÃŽ ©/ 3= 16.83 ÃŽ © Pencil 2 8.16 ÃŽ ©+ 8.35 ÃŽ ©+ 8.42 ÃŽ ©/ 3= 8.31 ÃŽ © Pencil 3 5.94 ÃŽ ©+ 5.67 ÃŽ ©+ 5.53 ÃŽ ©/3= 5.71 ÃŽ © Pencil 1 Pencil 2 Pencil 3 Table 2: Experiment 3 (pencil type) Pencil types Voltage of battery total voltage (V) Current (A) Resistance (ÃŽ ©) Pencil 1 (2H 10.5cm) 6V 7.35 V 0.16 A 45.94 ÃŽ © 8V 9.70 V 0.20 A 48.50 ÃŽ © Pencil 2 (2B 10.5cm) 6V 2.63 V 0.35 A 7.51 ÃŽ © 8V 3.18 V 0.42 A 7.57 ÃŽ © Pencil 3 (HB 10.5cm) 6 V 3.18 V 0.34 A 9.35 ÃŽ © 8V 3.88 V 0.40 A 9.7 ÃŽ © Pencil 4 (6B 10.5cm) 6V 0.59 V 0.41 A 1.44 ÃŽ © 8V 0.71 V 0.48 A 1.48 ÃŽ © Total Resistance Pencil 1 48.50 ÃŽ ©+ 45.94 ÃŽ ©/ 2= 47.22 ÃŽ © Pencil 2 7.57 ÃŽ ©+ 7.51 ÃŽ ©/ 2= 7.54 ÃŽ © Pencil 3 9.35 ÃŽ ©+ 9.7 ÃŽ ©/ 2= 9.525 ÃŽ © Pencil 4 1.44 ÃŽ ©+ 1.48 ÃŽ ©/ 2= 1.46 ÃŽ © Pencil 1 (2H) Pencil 2 (2B) Pencil 3 (HB) Pencil 4 (6B) Discussion Experiment 1 According to the data and the graph shown previously it supports the hypothesis for all the experiments. For experiment 1, it supports the hypothesis that as the length increase the resistance increase. Using the ohm’s law formula: For Pencil 2 (HB 17.5cm) with an applied volts of 2V, it shows that the total voltage was decrease to 1.6V with a current of 0.1 A and resistance of 16à ¢Ã¢â‚¬Å¾Ã‚ ¦. Compared to Pencil 4 (HB 7cm) with an applied volt of 2V, it shows that the total voltage was decreasing to 1.9V a 0.1 difference in voltage. With a current of 0.27A and a resistance of 7.03à ¢Ã¢â‚¬Å¾Ã‚ ¦ it shows that as the length of the pencil resistor increases the resistance increase. Increasing the length of the graphite in the pencil will increase the resistance of the whole circuit as the flow of electrons would have to travel longer than a short pencil resistor. Experiment 2 For experiment 2, referring to the graphs and tables it supports the hypothesis that as the cross section area of the conductor increases, the resistance decrease. For Pencil 1 with an applied of 4V, it shows that the total voltage was decrease to 2.46V with a current of 0.15A and resistance of 16.40 à ¢Ã¢â‚¬Å¾Ã‚ ¦. Compared to Pencil 3 with an applied volt of 4V, it shows that the total voltage was decreasing to 1.55V a 2.58 difference in voltage. With a current of 0.19A and a resistance of 7.03 à ¢Ã¢â‚¬Å¾Ã‚ ¦ it shows that as the cross section area of the pencil resistor increases, the resistance decreases. As the radius of the cross sectional area of a conductor (or thickness) is wider, the more electrons can pass through compared to a narrower conductor restricting high rate of flow of electrons. Experiment 3 For the experiment 3, it supports the hypothesis that as the concentration of clay in the pencil’s resistor increases, the resistance increases. For Pencil 1 (2H 10.5cm) with an applied volt of 6V, it shows that the total voltage was decrease to Graphite is more conductive than clay, as the concentration of clay in the pencil’s resistor increases, the resistance increases. Clay compared to graphite is an insulator and does not conduct with electricity well blocking the flow of electrons. This shows that a 2B would be more conductive than a HB as it contains more graphite than clay.

Searching For Meaning in Apocalypse Now Essay examples -- Movie Film c

Searching For Meaning in Apocalypse Now Francis Ford Coppola's film Apocalypse Now takes the audience into a tense and mystical journey through the Vietnam War. This long and agonizing journey is seen through the eyes of Captain Willard played by Martin Sheen. Sheen. Captain Willard is assigned to a mission that relies on him to assassinate Colonel Kurtz, who is played by Marlon Brando. Although Apocalypse Now is an examination of the many terrors of society that are connected to the Vietnam War, Coppola plays much of his film off Joseph Conrad's novel The Heart of Darkness. Conrad's story focuses on Captain Marlow who is parallel to Willard and the Colonel Kurtz possesses many of the same characteristics in both works. In both works, the Captain is to find the Colonel, but Coppola makes a very significant change in his film. This significant change is the transition of Captain Marlow assigned to find Colonel Kurtz in the Congo, to Captain Willard assigned to assassinate Colonel Kurtz in Cambodia. The fact that Willard has now become an assassin of Kurtz is very important in Coppola's over all point. It especially is important for the last ten minutes of the movie when Willard actually kills Kurtz. The final scenes of the film consist of Kurtz' reading of the poem "The Hollow Men" and the interplay of Willard killing Kurtz while the Cambodian Natives kill a water buffalo in a ritualistic setting. These changes and departures of the ending of Heart of Darkness are made so Coppola can make his point about the Vietnam War and society. The point being that the Vietnam War was completely meaningless and a lost cause among several others. However, as will be shown, these points come in conflict with eachother and are difficult to ... ... of the movie is. Apocalypse Now is definitely a movie fit for an audience who wishes to be stimulated with thought overload. The movie is filled with all kinds of metaphors to the Vietnam War and parallels to Heart of Darkness. Coppola makes alterations to Heart of Darkness to achieve his own personal point that is very different from Conrad's, but his point is still not completely clear. Coppola's opposition to the war is obvious but he throws in a lot of other elements to try to add even more onto that. Coppola uses Kurtz to examine the importance of not judging, "The Hollowness of Men", and the Christlike figure of Kurtz himself. All of these are great ideas, but the ideas are just scattered throughout the movie and show no cohesiveness. However, one can still appreciate Coppola's thought-provoking ideas without completely understanding what they all mean.

How are characters presented as disturbed in Macbeth, Laboratory and My Last Duchess? Essay

It is important to be able to define what ‘disturbed’ actually means in order to answer this question to a high standard of explanation. Disturbed is an adjective and it is the showing of symptoms of mental illness, severe psychosis and neurosis. It is also useful to consider the audiences of each poem or play to elaborate on explanations. Macbeth, written by William Shakespeare, is set during the eleventh century is about the emotional manipulation of individuals and the lust for power and the upmost authority over a victorious Scotland featuring an Elizabethan audience whereas Robert Browning’s poems, Laboratory and My Last Duchess, is about the overcoming of jealously and betrayal set during the Victorian era with a Victorian audience. Macbeth in the beginning of the play is a noble, humble and honourable person who, without question would sacrifice his life for the liberty of his King, Duncan. As the play progresses he attitude towards life in general changes completely, mainly due to the pressure that Lady Macbeth inflicts on him. However, Lady Macbeth has quite a surprising personality as she is not the stereotypical Elizabethan woman. Lady Macbeth is expected to be fragile, meek, innocent and comforting but in this unusual circumstance Lady Macbeth would very much rather â€Å"dashed the brains out† of an infant child. This is plain evidence to suggest that Lady Macbeth is of no stable condition. In addition to this surprising fact Lady Macbeth is cunning and bloodthirsty. She demands Macbeth in Act one, Scene Five to â€Å"look like th’innocent flower, but be the serpent under’t†. It is very common for a man to demand a female to pursue tasks but for a woman to demand a man, especially of something like sacrilege, is very unusual. This could mean two things, Macbeth is weak and is unable to depict his own decisions or/and that Macbeth is mentally deteriorating. Macbeth reason with Lady Macbeths orders in his soliloquy in Act one, Scene seven and from the things he points out such as â€Å"his faculties are so meek† gives the reader/viewer sympathy for Macbeth suggests that Macbeth is of a stable condition and is able to rationalize his views and interpretation â€Å"we will proceed no further in this business†. Lady Macbeth realises that herself and Macbeth in Act one, Scene Five are â€Å"too full o’th’ milk of human kindness† and therefore aggressively requests to the spirits â€Å"unsex me here and fill me here from the crown to the toe-top full of direst cruelty†. The tone and images that are tagged along with this quote are very dark and ‘cold hearted’, also notice the word used to describe the type of cruelty, ‘full of direst cruelty’. Not only does Lady Macbeth want to be cruel but she wants to be completely ‘full of’ the ‘direst cruelty’. It is at this exact point when it becomes possible to claim that Lady Macbeth is at the top of the spiral to insanity. The choice of language is compelling as if she felt no sympathy for King Duncan. Lady Macbeth uses harsh and violent sounding vocabulary to stress her ambitions â€Å"Hie thee hither†, the use of alliteration attracts the attention of audience signifying that she purposely wants people to know really how serious she is similarly in Laboratory the persona demonstrates her willingness to commit a felony â€Å"Grind away, moisten and mash up thy paste, pound at thy powder†, there is a use of harsh and violent sounding vocabulary and there is a use of alliteration to make an appeal to the audience. During the Elizabethan era a particular doctrine was in place because of the religious relationship involved with that patriarchal society, a feudal system was in place meaning that Sacrilege was unfaithful to such an extent that Hell was certain to be your destination. The fact that Lady Macbeth urges Macbeth to commit sacrilege is, without saying, disturbing because the King (especially at that time) is Gods representative and killing God just to achieve power is so insane that you could argue that she is ‘demon possessed’. Macbeth and the poem Laboratory are both similar in terms of the unusual language used, â€Å"Tomorrow, and tomorrow, and tomorrow†, a quote by Macbeth in his final soliloquy, in act five, scene five, before to his soliloquy Lady Macbeth had committed suicide which was inevitably an act of sin and therefore ‘the afterlife’ would be spend in hell for eternity â€Å"We’ld jump the life to come. But in these cases We still have judgment here†, which meant Macbeth and Lady Macbeth (at least Macbeth) were both aware that they had committed felonies during their current life including sacrilege giving the idea that Macbeth was aware of his wrongdoings telling us that Macbeth was not psychotically weak but instead attempted to improvise the situation so at least he had something to live for. This also gives the audience sympathy for Macbeth because he is able to rationalize his opinions and justifications. The persona uses similar unusual language to Macbeth â€Å"And her breasts and her arms should drop dead! † Stanza six, the repetition of the connective ‘and’ in the Macbeth and the Laboratory poem is used to emphasis their feelings and emotions. In addition to this the persona in Laboratory uses an exclamation mark at the end of her sentence revealing to us that she is certain that she wants this devil orientated scenario to occur in reality, on the other hand, Macbeth says his quote (mentioned above) in a calm, soothing manner. I am able to say this because Macbeth uses no form of extreme punctuation to object otherwise. This obviously is a difference suggesting that Macbeth is in fact sane because he is clearly pointing out that he has realised that â€Å"life’s but a walking shadow†. There are indeed multiple differences that make Laboratory and Macbeth very unalike indeed. The largest and most obvious variance between these two highly interpreted pieces of literature is that Laboratory is actually a poem of emotion and the outburst of frustration. The persona in Laboratory can be argued to be neurotic because of her intentions but these are just intentions whereas in Macbeth Lady Macbeths intentions are fulfilled, the killing of King Duncan. Laboratory is very much an extreme retaliation of revenge and hatred.

Critical Analysis of Two Primary Schools Essay

A critical analysis of the All Saints Primary School and Liverpool College Prep School websites. All Saints homepage immediately stresses the importance of learning together and demonstrates the emphasis that is placed upon religion within in the school. Their mission statement is presented as being â€Å"All Saints is a community where God’s light in each individual is nurtured and loved, allowing his spirit to shine in each one of us within our Catholic environment†. This is in contrast with Liverpool College which instead chooses to focus upon academic attainment on its homepage, stating: â€Å"High academic achievement is our primary aim and our results in national tests show that our standards are some of the best in the city and far above average in mathematics and English†. Both websites are extremely informative to the browser and offer detailed information on issues such as admission and behavioral policies. There is also a message from both headmasters outlining their visions for the schools. The schools contrast however in their ethos, religion appears to play an integral role within all aspects of All Saints whereas there is no mention of it within the Liverpool College website. Although both schools place a great importance upon producing an environment in which every child matters and feels secure. Liverpool College Prep School also displays information concerning tuition fees, whereas All Saints website being a voluntary aided school is free of cost to prospective pupils. Both schools however do demonstrate the significance they place upon extra-curricular activities by dedicating pages on their websites to the opportunities that are available to pupils within their school. The websites of both schools also outline the curriculum the school adheres to as well display their anti-bullying policies so they are accessible to all. The two schools display information for parents and offer advice and support in how they can effectively support their child through primary education. On the All Saints website this page is accompanied by a behavioural policy which the children are expected to comply with. Liverpool College asks parents to contact the school if they would like to receive a copy of the behavioural policy.