5. Using the the linearized data calculate the time constant for the RC circuit. 6. Calculate the value of the unknown resistor. 7. Show that the capacitor is nearly discharged after 5 time constants. Time (s) Potential (V) 2 10 20 30 40 2.995 2.921867371 1.91020965576 1.12934112549 0.667572021484 0.400352478027 50 l0.236320495605

I mainly need help with parts e, f, and g, the rest is already answered on other's answers but not these 3, thank you!

Transcribed Image Text:

O Login S RC CIRCUIT LAB | Sch x K student Gabriel Tew - RC Discharging Circuit x RC Discharging Circuit x b Answered: a. Draw an x G how to screenshot on + A web.kamihq.com Update : Kami Student Edu O A Kami Schoolo. student Gabriel Tew - AP+PHYSICS+C+RC+CIRCUIT+LAB.pdf 100% A Turn In SG Select AP PHYSICS C RC CIRCUIT LAB Dictionary The following data was collected in a lab where a 1000 uF capacitor was discharged using a 3 volt power supply. The capacitor was in series with a resistor of unknown value. Text to Speech You are to: 1. Draw an RC circuit diagram where a capacitor can be charged and discharged in the same circuit using a single pole double throw switch. 2. Construct a graph of showing the discharge curve of the capacitor's voltage with time using the data A Markup Comment below. constant slope. 3. Linearize the data below to construct a straight line with 4. The graphs should be labeled and titled. The axes should be labeled with appropriate units. 5. Using the the linearized data calculate the time constant for the RC circuit. T Text Box 6. Calculate the value of the unknown resistor. ÷ Equation 7. Show that the capacitor is nearly discharged after 5 time constants. Drawing Time (s) Potential (V) Shapes 2.995 Eraser 2 2.921867371 10 1.91020965576 Add Media 20 1.12934112549 30 0.667572021484 6 Signature 40 0.400352478027 50 0.236320495605 60 0.142097473145 70 0.0692367553711 80 0.0448226928711 Page 1 /1