please help me with my homework here is the link to the simulation

https://phet.colorado.edu/sims/html/charges-and-fields/latest/charges-and-fields_en.html

Instructions:

Open the simulation?Turn the Grid on. Move the +charge and place it on the grid (solid lines intersection).?Note the directions of the electric field lines. They originate from the positive charge.?Calculate the electric field at any point on the Grid and check its value by bringing the sensor there.?Repeat the same with the negative charge. ?The field lines now terminate on the negative charge.?Figure shows the field lines for both the positive and negative charges.Both Charges are present?Place the charges as shown below.ElectricFieldDirectiononlyVoltageValuesGrid+1nC-1nCSensorsChargesandFieldsCharges and Fields 1.0.50https://phet.colorado.edu/sims/html/charges-and-fields/latest/charges-and-...1 of 110/29/21, 11:33 AMElectricFieldDirectiononlyVoltageValuesGrid+1nC-1nCSensorsChargesandFieldsCharges and Fields 1.0.50https://phet.colorado.edu/sims/html/charges-and-fields/latest/charges-and-...1 of 110/29/21, 11:33 AM1meterElectricFieldDirectiononlyVoltageValuesGrid+1nC-1nCSensorsChargesandFieldsCharges and Fields 1.0.50https://phet.colorado.edu/sims/html/charges-and-fields/latest/charges-and-...1 of 110/29/21, 11:38 AM

3?The charges are 2m apart. Each square on the grid is 0.5m square. Calculate the electric field on the axis joining the two charges at (1) 1m left of positive charge, (2) 1m rightof positive charge, (3) 1m left of negative chargeand (iv) 1m rightof negative charge.?Drag the sensor at these locations and note the direction and magnitude of electric field.?Compare your calculatedresults with the one measured by sensor.?Taking the line joining the charges as x-axis and the positive charge on the origin (0,0), find the electric field at (0.5m, 1.0m).?You can also study the electric field due to an electric dipole by bringing these charges very close-almost teaching each other. Observe the field on axis and perpendicular to the dipole axis. Relate it with the dipole moment direction.Several ChargesFigure shows the field lines when six charges -3 identical positive charges and three identical negative charges.?Calculate the field at the center of the charges and measure it with the sensor. Compare these.Calculations:Show the calculations of the field on axis and off-axis.

Dot Sig & Use C Log Bar Bb UTF Bb 214 @ New Fur Goc arius_schamschula_aamu_edu/_layouts/15/onedriv cuments%2FClasses%2F214%2FOnline%20Labs%2FLab%%23-2-Electrics:2010 octric field.pdf o The electric field vector at any point is tangent to the field line through that point. o The density of field lines in that region is proportional to the magnitude of the electric field there. o No two field-lines can cross. Procedure: Open the simulation Turn the Grid on. Move the +charge and place it on the grid (solid lines intersection) Note the directions of the electric field lines. They originate from the positive charge. Calculate the electric field at any point on the Grid and check its value by bringing the sensor there. . Repeat the same with the negative charge. The field lines now terminate on the negative charge. . Figure shows the field lines for both the positive and negative charges. Both Charges are present Place the charges as shown below. acer & backs 6 8 9 U O pUse C Log schamschula_aamu_edu/_layouts/15/onedrive aspx?id=9:2F1 ocuments%2FClasses%2F214%2FOnline%20Labs%2FLab:23/2-Elec Lab#-2-Electric field.pdf The charges are 2m apart. Each square on the grid is 0.5m square. Calculate the electric field on the axis joining the two charges at (1) 1m left of positive charge, (2) Im right of positive charge, (3) 1m left of negative charge and (iv) 1m right of negative charge. Drag the sensor at these locations and note the direction and magnitude of electric field. Compare your calculated results with the one measured by sensor. Taking the line joining the charges as x-axis and the positive charge on the origin (0,0), find the electric field at (0.5m, 1.0m). . You can also study the electric field due to an electric dipole by bringing these charges very close-almost teaching each other. Observe the field on axis and perpendicular to the dipole axis. Relate it with the dipole moment direction. Several Charges Figure shows the field lines when six charges - 3 identical positive charges and three identical negative charges. Calculate the field at the center of the charges and measure it with the sensor. Compare these. Calculations: Show the calculations of the field on axis and off-axis. acer AD RO 5 6 7 back