DC Electrical;

DC Electrical; LO Learning outcome (LO)    Assessment Criteria    In this assessment you will have the opportunity to present evidence that shows you are able to:    Task no. Evidence (Page no) LO 3 Be able to apply DC theory to  solve electrical and electronic engineering problems.    3.1 Solve problems using Kirchoff’s laws to calculate currents and voltages in circuits. 3.2    Solve problems using circuit theorems to calculate currents and voltages in circuits. 3.3    Solve problems involving current growth/decay in L-R circuits and voltage growth/decay in C-R circuits. Learner declaration I certify that the work submitted for this assignment is my own and research sources are fully acknowledged. Student signature:     Date: In addition to the above PASS criteria, this assignment gives you the opportunity to submit evidence in order to achieve the following MERIT and DISTINCTION grades Grade Descriptor Indicative characteristic/s Contextualisation D1 Use critical reflection to evaluate own work and justify valid conclusions    Conclusions have been arrived at through synthesis of ideas and have been justified. Conclusions have been made by processes and ideas and justifications regarding the series R-L and R-C variables and circuit behaviour. (Tasks 3 & 4) D2 Take responsibility for managing and organising activities    Activities have been effectively  managed. Autonomy / independence has  been  demonstrated    All tasks have been accurately and concisely completed within the given time constraints. (All Tasks) Please note that for unit assignments assessors should use these or other exemplar indicative characteristics for the individual grade descriptors from Annexe C of the HN specification or any other relevant indicative characteristics for the particular assignment. The indicative characteristic should then be contextualised. Only one indicative characteristic per grade descriptor, M2, M2, M3, D1, D2, D3 is required. Assignment brief Unit number and title    21881C Engineering Science Qualification    Pearson BTEC Level 4/5 HN Engineering  Streams Start date Deadline/hand-in     25/5/15 Assessor    Dr Warren Kent PhD CMath MIMA CSci MIET AKC PGCE QTS Assignment title    DC Electrical Purpose of this assignment To develop the students knowledge and application of DC Theory, Theorems and Laws and their application in electrical circuits. Scenario This Assignment has been designed to allow students to show evidence of the application of DC Theorems in realistic electrical circuits and supporting the learning outcome. Task 1 : (LO3:3.1) D2 50 V In the DC circuit shown above, apply Kirchoff’s laws to find the current in each     branch. Task 2 (LO3: 3.2) D2 2. In the DC circuit shown above, apply Thevenin’s Theorem to find the current in the 25 ? resistor. Task 3 (LO3: 3.3) D1 D2 For the series RC circuit shown above, where there is no initial charge across the capacitor, on closing the switch, ‘S’, determine: (a) the initial value of the current, (b) the time constant of the circuit, (c) the current’s value after 1 second from switching on, (d) the voltage across the capacitor after 1.3 seconds from switch on, (e) the time from switch on when the resistor voltage was 32 V. Task 4 (LO3: 3.3) D1 D2 From the series RL circuit shown above, where there is no initial voltage across the inductor, on closing the switch, determine: (a) the steady-state value of the current flowing in the circuit, (b) the time constant of the circuit, (c) the induced voltage after 0.08 seconds, (d) the time taken for the current to rise to 75% of its final value, (e) the value of the current after 0.25 seconds. Evidence checklist    Summary of evidence required by student    Evidence presented Task 1    Circuit diagram showing the application of Kirchoff’s laws for the circuit’s variables. Task 2    Circuit diagram showing the application of Thevenin’s Theorem for the circuits variables. Task 3    Circuit diagram of the R-C circuit and tha application of DC theory for the solution of the circuit’s parameters. Task 4    Circuit diagram of the R-L circuit and tha application of DC theory for the solution of the circuit’s parameters. Sources of information: Achievement Summary Qualification    Pearson BTEC Level 4/5 HN Engineering  Steams Assessor name Dr W Kent PhD CMath CSci AKC PGCE QTS Unit Number and title    21881C Engineering Science Student name Criteria Reference    To achieve the criteria the evidence must show that the student is able to:    Achieved? (tick) LO1 3.1    Solve problems using Kirchoff’s laws to calculate currents and voltages in circuits. 3.2    Solve problems using circuit theorems  to calculate currents and voltages in circuits. 3.3 Solve problems involving current growth/decay in an L-R circuit and voltage growth/decay in a C-R circuit. Higher Grade achievements (where applicable) Grade descriptor Achieved? (tick) Grade descriptor Achieved? (tick) D1: Use critical reflection to evaluate own work and justify valid conclusions D2: Take responsibility for managing and organising activities Assignment Feedback Formative Feedback: Assessor to Student Through out this section of the module delivery. Action Plan Summative feedback Feedback: Student to Assessor