- 1 Objectives To Determine Equipotential Lines Isolines And Electric Field Lines Between Two Point Charges Of Opposit 1 (459.4 KiB) Viewed 35 times
- 1 Objectives To Determine Equipotential Lines Isolines And Electric Field Lines Between Two Point Charges Of Opposit 2 (341.09 KiB) Viewed 35 times
1. OBJECTIVES To determine equipotential lines (isolines) and electric field lines between two point- charges of opposite sign (dipole). 2. APPARATUS Charges and Fields 1.0.50 (colorado.edu) 3. THEORETICAL INFORMATION solines: Equipotential lines are like form lines on a guide that follow equivalent elevation lines. The "stature" experiencing the same thing is electric potential or voltage. Equipotential lines run corresponding to the electric field consistently. The connection between potential and electric field is a differential: the electric field is the inclination of potential (V) in the x heading. 4. PROCEDURES Most importantly we add a positive charge and a negative charge to the field in a similar line, then, at that point, we measure the voltage around the two charges and furthermore observe the line that has 0 volts, then we draw the bearing of the electric field around the two charges. Take the digression as a primary concern. 5. DATA Sketch your qualitative results on a diagram, or provide a screen shot showing them.
0.3 dog 1.51 Vin -285 deg 1 82 Vim Electric Field HG 20 W 4/6 deg 01 W 745 deg 3.67 Ver 2 des 2011 deg 23 202 Vin O OVO U Voltage 371 4.71 m Values 341 des as des 138 deg 3.00m Grid 6.58 35 dag 50 V 20 m Q 1.1 deg 62m -0% 381 LOV 10V SOV 50V-100V 00V -1 nc 1 C Sensors Charges and Fields PET = 6. RESULTS the positive and negative charges impacted the field, around the negative charge draws in the field towards it while the positive charge repulses the field, both opposite to the digression line, as we draw near to the positive charge the voltage gets higher, the specific inverse in the negative charge. There may be some errors in the values or my