Three charges of –9 μC are placed at locations of <3,1,0> cm, <1,3,0> cm, and <3,3,0>...

Three charges of –9 μC are placed at locations of <3,1,0> cm, <1,3,0> cm, and <3,3,0>...

Three charges of –9 μC are placed at locations of <3,1,0> cm, <1,3,0> cm, and <3,3,0> cm. (a) Find the electric field at the location <2,2,0> cm. (Hint: what type of quantity is an electric field?) (b) What would be the force be on a – 0.25 nC charge placed at <2,2,0> cm?

Three point charges are placed on the x-axis. A charge of +2.0 μC is placed at...

Three point charges are placed on the x-axis. A charge of +2.0 μC is placed at the origin, -2.0 μC to the right at x = 50 cm, and +4.0 μC at the 100 cm mark. a. Find the net electric force (magnitude and direction) that acts on the charge at the origin. b. Find the net electric field (magnitude and direction) at x = 25 cm. c. Find the net electric force (magnitude and direction) on a charge Q...

Three point charges are placed on the x-y plane: a +40.0 nC charge at the origin,...

Three point charges are placed on the x-y plane: a +40.0 nC charge at the origin, a −40.0 nC charge on the x axis at 15.0 cm, and a +125.0 nC charge at the point (15.0 cm, 6.00 cm). (a) Find the total electric force on the +125.0 nC charge due to the other two. (b) What is the electric field at the location of the +125.0 nC charge due to the presence of the other two charges?

1. Three point charges, +2.0 μC , -4.0 μC , and +6.0 μC are placed in...

1. Three point charges, +2.0 μC , -4.0 μC , and +6.0 μC are placed in that order along a straight line with 18 cm separating adjacent charges. Calculate the force on each charge. 2. Calculate the electric field strength required to support a proton (at the Earth’s surface).

1. Three point charges, +2.0 μC , -4.0 μC , and +6.0 μC are placed in...

1. Three point charges, +2.0 μC , -4.0 μC , and +6.0 μC are placed in that order along a straight line with 18 cm separating adjacent charges. Calculate the force on each charge. 2. Calculate the electric field strength required to support a proton (at the Earth’s surface).

Three point charges (A =2.2 μC, B = 7.5 μC, C = -3.9 μC) are located...

Three point charges (A =2.2 μC, B = 7.5 μC, C = -3.9 μC) are located at the corners of an equilateral triangle. a. Find the direction and strength of the electric field at the location of charge A again but this time find by adding the electric field from individual charges. Compare your answer to the answer you got for problem 2. NOTE: when finding the electric field at the location of charge A you do NOT add the...

Three point charges are placed on the x-y plane: a +30.0 nC charge at the origin,...

Three point charges are placed on the x-y plane: a +30.0 nC charge at the origin, a -30.0 nC charge on the x axis at 10.0 cm, and a +110 nC charge at the point (10.0 cm, 8.00 cm) 1.) Find the x component of the total electric force on the +110 nC charge due to the other two. (Express your answer to two significant figures.) Answer in mN 2.) Find the y component of the total electric force on...

Point charges of -2.93 μC and +6.63 μC are placed 0.898 m apart, with the negative...

Point charges of -2.93 μC and +6.63 μC are placed 0.898 m apart, with the negative charge at the origin and the positive charge on the +y-axis. (a) At what location, in meters, is the electric field due to these charges zero?

Three +2 µC point charges are fixed in space in the following locations: the first at...

Three +2 µC point charges are fixed in space in the following locations: the first at <1, 0, 0> cm, second at <0, 2, 0> cm, and a third at <-4, 0, 0> cm. (a) Find the net electric field at positions <0, 0, 0> cm and <-1, 1, 0> cm. (b) For each location where you found the electric field, what is the force on a -3 µC test charge.

Three electric charges, 2 μC, 5 μC and −2 μC, are placed on the x-axis at...

Three electric charges, 2 μC, 5 μC and −2 μC, are placed on the x-axis at positions −4 m, 0 m and 2 m, respectively. What is the net force on the 5 μC charge?