TEMPLATES for the procedure to display the date and time. Screenshots must include the date/time stamp. The lab document must be a Word document. Override grade, or report does not follow a standard Multiple sections or is unprofessional in appearance, grammar, or Presentation is somewhat difficult to follow. Lab report mayīe lacking one section or content of sections may be trivial. Lab report with all sections found in the template. Multisim 12 screen capture professional#Points 10 6-9 3-5 2 0 Lab Report Provided a professional Grade, or summary completely trivial or completely inaccurate and The lab or the technical explanation had multiple errors. Personal reflection only, not addressing the technical aspects of Sufficiently address the technical perspectives. Points 5 11-19 2-10 1 0 Summary Provided a professional and Grade, or explanations are completely Did not provide an answer. Minor Explanations reflect one or more major conceptual Override Points 24 12-23 2-11 1 0Īnalysis/Questions (6 total x 4pt each) Answers are correct anyĮxplanations are Explanations are basically accurate (slight or Many measurements may not have been made. Major conceptualĮrrors or significant measurement errors. Some measurements may not have been made. Minor conceptual errors and/or minor or minimalĮrrors or mistakes in measurements. PointsĤ4-48 37-43 2-37 1 0 Screen capture measurements (8 total x 6ptĮach) Made all measurements. Override grade circuits in lab report lack time stamps. Multisim 12 screen capture software#Understanding of the software tool and not specifically to the Makes significant errors in use of software tool (Multisim) toĬonstruct the circuit. Significant errors in use of the software tool (Multisim). General Circuit Construction Including Tolerances ProperlyĬonstructed the circuit with no errors. With multimeter with measurement of IR2 Points 10 6-9 2-5 1 0 Of VR1 Step 8: Circuit with multimeter with measurement of VR2 Stepĩ: Circuit with multimeter with measurement of IR1 Step 10: Circuit Measurement of IR2 Step 7: Circuit with multimeter with measurement With measurement of IR1 Step 5: Circuit with multimeter with Multimeter with measurement of VR2 Step 4: Circuit with multimeter With multimeter with measurement of VR1 Step 3: Circuit with Showed no sample calculations.įollowing screenshots with time stamp required: Step 2: Circuit Multisim 12 screen capture pdf#OVERRIDE GRADE of 1: If pdf file is used, name and GID must be onĮach page and all work must be handwritten. Resistor might be, including the effect on the circuit current. Relationship between the voltage across and the size of the Summary: Summarize your findings and include what you think the Second resistor and replaced that with a short (a piece of wire)? What do you think would happen if we removed the They the same? What conclusion can you draw from these current The circuits, discuss the current going into each component. Of the circuits, add the voltage readings for each resistor and Voltages and currents when the resistance was changed. Describe the changes that occurred to the Total screen captures (aka screen shots) with titles.Īnalysis/Questions: 1. Step 7,8,9,10: Repeat Steps 2 thru Steps 5 The value of R2 from 10kOhms to 20kOhms (double click on the Add a title to the top of your screen capture. Paste this screen capture into your Lab Report (wordĭoc). Run the simulation and takeĪ screen capture of the circuit, multimeter and measurement takingĬare to include the date/time stamp in the lower left corner of Multisim 12 screen capture series#Step 5: Place a multimeter in series with R2 Run the simulation and take a screen capture of the circuit, The circuit must be openedĪnd the multimeter must be inserted in the path of the electricĬurrent so that the electric current will flow thru the multimeter. Step 4: Place a multimeter in series with R1 Paste this screenĬapture into your Lab Report (word doc). Stamp in the lower left corner of your screen. Multimeter and measurement taking care to include the date/time Step 3: Place a multimeter across R2 to measure the voltage across Measurement taking care to include the date/time stamp in the lower Simulation and take a screen capture of the circuit, multimeter and Multimeter across R1 to measure the voltage across R1. Simulation and use resistor tolerance of 5% Step 2: Place a Values: V1 = 24V R1 = 5kOhms R2 = 10kOhms Enable tolerances on the The circuit shown above using Multisim by using the following Watch videoĮntitled “Introduction to MultiSIM” Procedure: Step 1: Construct TakeĬare to follow all the steps carefully and accurately. Now is the time to develop proper lab techniques. Voltage across a resistor and the current thru a resistor using a Week 1 Lab Assignment: Introduction to MultiSIM In this week’s
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