Use the simulation at the below link to play around with various configurations of charged particles listed below and answer the questions asked. https://phet.colorado.edu/sims/htm//charges-and-fields/latest/charges-and-fields_en.html Analysis: 1) Set up in the simulation

two positive charges +1nC and +1 nC at a distance of 3 m apart. Draw by hand the field diagram on a piece of paper showing what the field lines would look like around the two charges. 2) Set up in the simulation two opposite charges +1nC and -1 nC at a distance of 3 m apart. Draw by hand the field diagram on a piece of paper showing what the field lines would look like around the two charges. 3) Set up in the simulation three positive charges +1nC, +1 nC and +1 nC at a distance of 3 m apart to create an equilateral triangle. Draw by hand the field diagram on a piece of paper showing what the field lines would look like around the three charges. 4) Set up in the simulation to make an equilateral triangle with the two positive charges as the base with +1nC and +1 nC separated by a distance of 3m, and then set up a negative charge of -1 nC at the top of the triangle to create an equilateral triangle. Draw by hand the field diagram on a piece of paper showing what the field lines would look like around the three charges. 5) Using the given field diagram of the three charges below, calculate the net Electric Field Strength (include angle) at the yellow point shown in the diagram. The charge values are shown, the distance between major grid lines shown by the red arrow is 0.5 m. Make appropriate measurements to be able to calculate the net Electric Field Strength. Show all work and annotated calculations. -INC Semes/n Use the simulation at the below link to play around with various configurations of charged particles listed below and answer the questions asked. https://phet.colorado.eduSms/htm/changes-and-becslatest/charges-and-fieds.en.htm Analysis: 1) Set up in the simulation two positive charges +1nC and +1 nC at a distance of 3 m apart. Draw by hand the field diagram on a piece of paper showing what the field lines would look like around the two charges. 2) Set up in the simulation two opposite charges +1nC and -1 nC at a distance of 3 m apart. Draw by hand the field diagram on a piece of paper showing what the field lines would look like around the two charges. 3) Set up in the simulation three positive charges +1nC, +1 nC and +1 nC at a distance of 3 m apart to create an equilateral triangle. Draw by hand the field diagram on a piece of paper showing what the field lines would look like around the three charges. 4) Set up in the simulation to make an equilateral triangle with the two positive charges as the base with +1nC and +1 nC separated by a distance of 3m, and then set up a negative charge of -1 nC at the top of the triangle to create an equilateral triangle. Draw by hand the field diagram on a piece of paper showing what the field lines would look like around the three charges. 5) Using the given field diagram of the three charges below, calculate the net Electric Field Strength (include angle) at the yellow point shown in the diagram. The charge values are shown, the distance between major grid lines shown by the red arrow is 0.5m. Make appropriate measurements to be able to calculate