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Qualification - Pearson BTEC Level 3 International in Applied Science
Unit Name - Principles and Applications of Physics
Unit Level - Level 3
Unit Number - Unit 7
Assignment Title - Thermal energy, material characteristics and fluid behavior and Dangerous but useful - ionising radiation
Learning Outcome 1: Understand thermal physics, materials and fluids
Learning Outcome 2: Investigate the properties and uses of radioactivity
Assignment - Thermal energy, material characteristics and fluid behavior
Scenario: You have recently applied to a large manufacturing company for a junior position and have been accepted as a trainee apprentice. The company manufactures and tests a wide range of products for the home and industry and specializes in materials quality testing, heat engines, pumps and fluid viscosity testing. Your role as a junior testing engineer, involves a six month initial chaperone by a very experienced senior engineer with the company and is followed by intensive further study and practical application of your developing engineering knowledge.
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Assessment Task 1: Produce a document, intended for use by both new recruits and experienced staff members, which acts as reference material providing useful definitions, units and fundamental terms which are encountered when working with heat, materials and fluids. This work should include:
• Description of relevant quantities and associated units
• Explanations of definitions usedin thermal physics, materials and fluids
• Example calculations which are used to show efficiency applied to industrial applications.
• An explanation of the application of thermal physics in both the home and industry
• An explanation indicating where physical aspects of materials and relevance of fluid flow aspects apply in the home and in industry and an Analysis of their importance.
• Demonstration of concepts and changes of state by applying examples to given situations and example calculations for ideal gases, first law of thermodynamics, specific and latent heat calculations, to include practical activities demonstrating specific heat capacity and changes of state.
• Produce a report which explains the following physical concepts applied to materials in domestic and industrial settings. Provide suitable example calculations where appropriate.
You will need to demonstrate an understanding of the use of relevant quantities and units by providing suitable definitions and example calculations, obtained using suitable practical activities:
• Density, tensile and compressive stress and strain, Young's modulus and Hooke's Law
Mathematical presentation from the results of the experiments carried out will be clear and accurate, and interpreted to demonstrate the concepts investigated.
Explain the following concepts in fluid flow and apply them in appropriate domestic and industrial situations. These will include:
• Viscosity and viscous drag
• Streamline and turbulent fluid flow patterns including pressure
• Non-Newtonian fluid flow
• Mass of fluid flow per second
• Bernoulli's principle
Unit Criteria: Analyse the importance of thermal physics, materials and fluids in home and industrial situations
Explain how the principles of thermal physics applies to the home and industry
Explain the physical aspects of materials in relation to their use in the home and industry
Explain the concepts of fluid flow as applied to the home and industrial situations
Describe the general applications of thermal physics in the home and industry
Outline the physical aspects of materials in the home and industry
Describe the main aspects of fluids as applied to home and industrial situations
Assignment - Dangerous but useful - ionising radiation
Learning aim 1: Investigate the properties and uses of radioactivity
Vocational Scenario: You have been appointed as a supporting technician in the science department of a large school that delivers a wide range of subjects to sixth form learners. The centre is well resourced and has recently taken stock of a set of radioactive elements. The head of the science department has asked that you assist in the delivery of a physics lesson to Level 3 learners, to help provide additional knowledge and practical expertise to enable factual information to be given at each stage of the lesson. Many learners may be inspired by your help and guidance and may consider studying related science subjects at college or pursue job opportunities in related areas. To provide the best possible support to the Tutor and Learners, you will need to prepare notes and examples.
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Assessment Task: Produce a detailed report on the main aspects of the periodic table with particular focus on atomic structure and related forces. This work should include:
• A description of particles in the atom and reference to Geiger and Marsden's experiments.
• An explanation of radioactive isotopes using atomic number & mass
• An explanation of the relative properties of alpha, beta and gamma radiation, including the effect of magnetic fields on the types of radiation.
• An explanation of nuclear forces and stability of the atoms, including the decay process
Carry out and record a practical demonstration illustrating radioactive decay and half-life. You will need to Explain the differences of alpha, beta and gamma radiations and also the principles of nuclear fission.
Evaluate the method of detecting radiations, its effect on human and animal health and background radiation from human and natural sources.
Analyse a detailed account as a case study of well-known nuclear accidents. This should focus on:
o Specific times, dates and locations
o Known causes of the accident
o Deaths and injuries involved
o Immediate and long term damage to the environment
Explain how nuclear power stations generate electricity. You will need to include:
• A description of the uranium 235 atom and diagram of the nuclear fission process
• How the processes are contained
• A brief outline of the production of Plutonium
Evaluate the benefits of radioactive sources in science and in medicine. This should include a brief outline of uses of radioactivity in:
• Gamma and X-ray radiography for medicine and industry
• Radioactive tracers for medicine and industry
• Radiocarbon and radioisotope dating in science
Criteria: Evaluate the uses of radioactivity in terms of benefits and risks
Explain the structure of atoms and forces involved
Explain the essential aspects of ionising radiations
Explain the main applications of ionising radiations
Outline the structure of the atom, the periodic table and forces involved
Describe the essential aspects of ionising radiations
Describe the main applications of ionising radiations
|Learning aim A: Understand thermal physics, materials and fluids
|A.P1 Describe the general applications of thermal physics in homes and industry.
||A.M1 Explain how the principles of thermal physics applies to the home and industry.
||A.D1 Analyse the importance of thermal physics, materials and fluids in home and industrial situations.
|A.P2 Outline the physical aspects of materials used in the home and industry.
||A.M2 Explain the physical aspects of materials in relation to their use in the home and industry.
|A.P3 Describe the main aspects of fluids as applied to home and industrial situations.
||A.M3 Explain the concepts of fluid flow as applied to the home and industrial situations.
|Learning aim B: Investigate the properties and uses of radioactivity
|B.P4 Outline the structure of the atom, the periodic table andforces involved.
||B.M4 Explain the structure of atoms and forces involved.
||B.D2 Evaluate the uses of radioactivity in terms of benefits and risks.
|B.P5 Describe the essential aspects of ionising radiations.
||B.M5 Explain the essential aspects of ionising radiations.
|B.P6 Describe the main applications of ionising radiations.
||B.M6 Explain the main applications of ionising radiations.
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