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Physics II: Charges and Fields Worksheet Class: Section: Lab Group: Assignment Date: PHYSICS II Lab 11:00-12:50 14 2/6/2019 Names: Abdulelah Abubakr Sajad Al Darwish answer key: numbers Charge and Potential Question 1: In the presence of a single positive charge, at what distance is the electric potential at its greatest? Question 2: If the electric potential at a test probe due to a single charge is 5.00 V, what would you expect that value to become, when you replace that charge with its opposite? Question 3: What will the potential at the test probe become if you put the positive charge and negative charge together in exactly the same place? Question 4: What shape are the equipotential lines around a single charge? Potential over Distance variable: distance meters units: data: 1.804 0.901 0.603 0.451 0.35 0.298 0.251 0.226 potential volts 5 10 15 20 25 30 35 40 Equations from Curve Fit and T Coefficients from y= Textbook: Curve Fit: Potential at Outermost Circle (from fit ): units: Question 5: From the textbook equation, given that the charge is 1.00 nC, what potential should you expect at the distance of your outermost circle? Question 6: Use the equation derived from your data to calculate the potential at the same distance. What is the percent error? Question 7: If the potential at a test probe due to a single charge is 1.00 V, what will it become if the charge is doubled? Charge and the Electric Field Question 8: Which direction do the electric field lines point from a positive charge? Answer toward, or away. Which direction would a positive charge go in if it was in this field? What about a negative charge? Question 9: What direction would a positive charge be pushed in if it is near a negative charge? Field Strength over Distance variable: units: data: distance field strength meters volts/meters 0.103 909 0.237 157 0.389 64.1 0.526 33.2 0.656 20.9 0.802 14.3 0.961 9.85 1.204 6.38 1.435 4.34 1.794 2.8 Equations from Curve Fit and T Coefficients from y= Textbook: Curve Fit: Field Strength at Outermost Circle: units: Question 10: From the textbook equation for the electric field due to a single charge, given your charge, what electric field strength should you expect at the distance of your outermos circle? Question 11: Use the equation derived from your data to calculate the electric field strength at the same distance. What is the percent error? Question 12. What is the angle between the electric field lines at a given point and the equipotential lines at that same point? Worksheet dulelah Abubakr ad Al Darwish text data distance: s the electric units: s 5.00 V, what h its opposite? potential: e positive charge potential: units: units: shape: e? s from Curve Fit and Textbook A x^ 8.99 9.0049 0 Meters -5 Volts 0 Volts circle n -1 -0.992 5.02 volts what potential potential: 4.98 units: volts ential at the same , what will it % error: 0.400 potential: 2.00 units: volts toward or away : away toward or away : away toward or away : toward toward or away : toward ield ve charge? Answer ear a negative s from Curve Fit and Textbook A x^ 8.99 9.1041 n -2 -2.017 892.0 volts/meter ngle charge, given e of your outermost strength: units: 847 volts/meter 0.103 0.237 0.389 0.526 0.656 0.802 0.961 1.204 1.435 1.794 909 157 64.1 33.2 20.9 14.3 9.85 6.38 4.34 2.8 ctric field strength oint and the % error: angle, in degrees: 5.31 847.39 90 copyright 2016 Steven Hoke copyright 2016 Steven Hoke Potential Over Distance Place your equipotential plot and fitted graph of potential over distance here Potential vs. Distance 45.000 40.000 35.000 Potential (volts) 30.000 25.000 20.000 15.000 10.000 5.000 0.000 0 0.2 0.4 0.6 0.8 1 Distance (meters) 1.2 ver Distance ph of potential over distance here. 1.804 0.901 0.603 0.451 0.4 0.298 0.251 0.226 1.4 1.6 1.8 2 5.000 10.000 15.000 20.000 25.000 30.000 35.000 40.000 Electric Field Strength Over Distance Place your equipotential plot and fitted graph of electric field strength over distanc Electric Field Strength vs. Distance lectric Field Stength (volts/meter) 1000 900 800 700 600 500 Electric Field Stength (volts/m 500 400 300 200 100 0 0 0.2 0.4 0.6 0.8 1 Distance (meters) 1.2 ngth Over Distance lectric field strength over distance here. vs. Distance 0.103 0.237 0.389 0.526 0.656 0.802 0.961 1.204 1.435 1.794 1.2 1.4 1.6 1.8 2 909 157 64.1 33.2 20.9 14.3 9.85 6.38 4.34 2.8 Dipoles Place your equipotential plots of dipoles here. poles ts of dipoles here. Exploration Place your equipotential plots of explorations here. oration of explorations here. Conclusion Electric Field has unsurprising outcomes, with like charges repelling. There is a wall of both positive and negative net cha we stick capacitor to a proton on the right side it will stream to the wall, then it would hit the proton wall reflect and head to left side.. Atom demonstrates that protons are vigorously pulled in to the electron ring; anyway once you outperform that it turns out Crystalline structure positively charged atom will go to the negatively charged path most likely in a figure 8 pattern orbiting a the borders of the wall the proton would be strongly repelled from even coming in. Water the structure is regularly changing so the protons and electrons will be propelled in arbitrary ways relying upon what can clarify a portion of the properties of fluids, for example, waters capacity to diffuse charges every which way. lusion positive and negative net charge it will reflect both negative and postivel charged atoms. If e proton wall reflect and head to the contrary way. In like manner with electrons from the you outperform that it turns out to be intensely rebuffed by the proton center. ely in a figure 8 pattern orbiting around the electrons. excpt if we stick a proton outside of bitrary ways relying upon what charge field is closest to it. so the movement of water atoms es every which way. …
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