BTEC NATIONALS-ELECTRIC AND ELECTRONIC PRINCIPLES ASSIGNMENT 1 RESISTANCE IN ELECTRIC CIRCUITS

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1 BTEC NATIONALS-ELECTRIC AND ELECTRONIC PRINCIPLES ASSIGNMENT 1 RESISTANCE IN ELECTRIC CIRCUITS NAME: Date Issued I agree to the assessment as contained in this assignment. I confirm that the work submitted is my own work. Signature Date submitted PASS To achieve a pass grade the evidence must show that the learner is able to: CRITERIA determine currents, voltages and resistances in dc networks having one voltage source and five components, from practical measurements and calculations describe the relationships between voltage and current for circuits containing series and parallel combinations of components plot graphs showing voltage and current for charging and discharging capacitors from measurements they have obtained from practical experiments Achieved plot forward and reverse characteristics of a semiconductor diode from measurements taken using specific components measure and calculate output voltages for transformers in given electrical circuits Describe with the aid of appropriate diagrams, the magnetic fields produced by permanent magnets and electromagnets MERIT To achieve a merit grade the evidence must show that the learner is able to: DISTINCTION To achieve a distinction grade the evidence must show that the learner is able to: explain the principle of electromagnetic induction and relate this to typical applications such as motors, generators and transformers determine currents, voltages and impedances in ac circuits containing RL and RC components, from practical measurements and calculations. solve given problems in ac circuits involving RLC networks, and in dc circuits containing multiple voltage sources relate the theory of a range of electrical principles to data obtained experimentally determine from given data the B/H relationship generators by reference to electrical theory. for specific magnetic materials. analyse the operation of power supply circuits containing transformers, diodes and capacitors, including an appraisal of the effects of varying component parameters predict the performance of given motors and generators by given reference to electrical theory.

2 Feedback Comments: This assignment brief has been internally verified. Grade Awarded: Tutor Signature Date: Script verification I.V. Signature Date:

3 PART 1 VIDEO ASSIGNMENT ON RESISTORS After watching the video on electrical resistors, answer the following questions. 1. Describe the construction of a carbon resistor. 2. Describe the construction of a wire wound resistor. 3. Describe the construction of a metal oxide film resistor. 4. Draw the symbol for a fixed resistor. 5. Draw the symbol for a variable resistor. 6. What is the main reason for using a wire wound resistor? 7. Write down the colour code for a value 22kΩ. 8. Write down the colour code for a 47kΩ resistor. 9. What is the value of a resistor with coloured bands of red, green and blue? 10. What colour indicates a tolerance of plus or minus 2%

4 PART 2 RESISTANCE NETWORK This part must be written up as a separate report. The student has a circuit board with a suitable resistance network with the facility for safely measuring the voltage and current at key points. A typical circuit is shown. A safe source must be used and it is advisable to use a perspex cover with holes for inserting probes. TASK 1 Examine the network fixed on the board and sketch the circuit. Deduce the total resistance. Measure the total resistance and comment on the accuracy of the two figures. TASK 2 Measure the total current from the source and the source voltage at the same time. Calculate the theoretical current and compare the theoretical and practical values. TASK 3 Calculate and check the voltage across a designated resistor. Comment on the two figures.

5 PART 3 TEST QUESTION ON RESISTOR NETWORK Solve the question below and hand in for marking. 1. Calculate the total resistance of the network shown below. 2. Calculate the total current. 3. Calculate the power dissipated as heat in the circuit. 4. Calculate the current in R4. 5. Calculate the current in the R1. 6. Calculate the voltage across R1. STUDENT R1 R2 R3 R4 V k2 3k3 3k3 1k k7 2k2 2k2 1k k2 4k7 6k8 4k

EDEXCEL NATIONALS UNIT 5 - ELECTRICAL AND ELECTRONIC PRINCIPLES. ASSIGNMENT No.1 - RESISTOR NETWORKS

EDEXCEL NATIONALS UNIT 5 - ELECTRICAL AND ELECTRONIC PRINCIPLES ASSIGNMENT No.1 - RESISTOR NETWORKS NAME: I agree to the assessment as contained in this assignment. I confirm that the work submitted is