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Tuesday, March 26, 2019

Simple Voltage and Current Measurement :: essays research papers

Experiment I unreserved Voltage and present-day(prenominal) Mea undisputablementObjectiveThe objective of this experiment was to measure the Voltage and Current. Upon consummation of this experiment I was able to1)Set the DC power allow to a specific voltage.2)Properly connect the volt metre to measure voltage.3)Measure authentic with the ammeter.4)Measure resistance with the ohmmeter.5)Determine the accuracy of a given meter reading.TheoryThe theory required for this experiment was an understanding of Ohms Law. Ohms Law is the algebraic relationship between voltage and current for a resistor. Resistance is the capacity of materials to impede the flow of current or galvanic charge. Ohms Law expresses the voltage as a function of the current. It was as well necessary that the concept of measurement accuracy be understood. This is discussed below.Accuracy is of prime importance in an experimental work. The tolerance quoted by the meter maker allows us to calculate the accurac y of any readingtaken with that grumpy meter. For example, assume that the dc voltage scale on a circumstance multimeter is rated at 3% of full scale. This means that a reading onthe 10V scale is accurate to ( 0.03%)(10) = 0.3V. Thus, a reading of 9V on the10V scale presents a true voltage, which lies between 8.7 and 9.3 V. A reading of 1Von the scale would indicate a true voltage between 0.7 and 1.3 V. At this point, the error is 30% Any reading less than 10% of full scale should be viewed with suspicion since most meters are very inaccurate n this range. turn DiagramsFor this experiment we used a function supply source, voltmeter/ammeter/ohmmeter.Fig 1.1 mogul Supply and voltmeter in parallelPower SupplyVoltmeter-Fig 1.2 Simple voltage measurement circuit.aab a ba ad c c dc dFig 1.3 Simple current measurement circuitPower Supply(Be sure current Icontrol is at level best setting)Fig 1.4 Circuit to measure resistanceProcedureTo measure the voltage output of the power suppl y, we connected the voltmeter as shown in Fig. 1.1. We made sure that the voltmeter is always connected in parallel with the voltage being measured. in advance turning on the power, we set the voltmeter voltage range to a DC value higher than the highest voltage we expected to measure. This precaution must be observed with all meters in order to avoid the possibility of yearning out an expensive instrument.We then set the current control to maximum current and adjust the output voltage of the supply to values of 2.5, 10, and 15.

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