Part II: Voltage across the capacitor vs. Voltage across the resistor 1.) Use the curve fit to VC to an inverse exponential to calculate the capacitance. C= Units? 2.) Use the curve fit to VR to a natural exponential to calculate the capacitance. C= 3.) Are these values close to one another? Should they be? Explain. Your answer here (erase this!) 4.) Quantify your result by taking the percent difference between the values. art II: Voltage across the capacitor vs. Voltage across the resistor Record a copy of your VC and VR curve-fit information for one of the trials. Curve fit equation for Ka= Curve fit equation for VR= 2.) Attach a copy of your Voltage vs. Time graph with all curve-fit information. Part II: Voltage across the capacitor vs. Voltage across the resistor 1.) Use the curve fit to VC to an inverse exponential to calculate the capacitance. C= Units? 2.) Use the curve fit to VR to a natural exponential to calculate the capacitance. C= 3.) Are these values close to one another? Should they be? Explain. Your answer here (erase this!) 4.) Quantify your result by taking the percent difference between the values. art II: Voltage across the capacitor vs. Voltage across the resistor Record a copy of your VC and VR curve-fit information for one of the trials. Curve fit equation for Ka= Curve fit equation for VR= 2.) Attach a copy of your Voltage vs. Time graph with all curve-fit information