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9:09 1 .ul ? static_electicity__el_fiels_lab.docx If the charge on the rubbed balloon is equal to 1.6x10* C, how many electrons in excess are on the balloon? Hint: Q = nxe (n= number of electrons and e is the elementary charge or the charge on one electron) n= Part 2: https://phet.colorado.edu/sims/html/charges-and- fields/latest/charges-and-fields_en.html Voltage is another word for electric potential. Electric potential is a characteristic of the distribution of source charge, the+/- 1 nC point charge in the examples above. The electric potential expresses the work a source charge distribution does on a point charge as the point charge's position changes. The electric field expresses the force a source distribution exerts on a point charge and work done is proportional to force exerted. Thus, electric potential is related to electric field. Determine the V vs. r relationship for a point charge. This means taking data from the simulation, making a graph on Excel (or similar), finding the best-fit relationship. (Click on show numbers and tape measure to measure the distances from a field-creating charge to a test charge. The tape measure can be dragged to a specific distance and placed anywhere on the field.) A single positive charge V Electric Field O Direction only O voltage V Values Equipotant V Grid +1 nC -1 nC Sensors r (m) Electric Potential (V) Best fit relationship (be specific): Theoretical support for this relationship (e.g., supporting formulae from the textbook): How does this relationship compare to the E Field vs. distance relationship? 000 Dashboard Calendar Тo Do Notifications Inbox